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1,662 results on '"Abacı A"'

1. SE(3)-Equivariant and Noise-Invariant 3D Rigid Motion Tracking in Brain MRI

Author

Billot, Benjamin, Dey, Neel, Moyer, Daniel, Hoffmann, Malte, Turk, Esra Abaci, Gagoski, Borjan, Grant, Ellen, and Golland, Polina

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition
Abstract

Rigid motion tracking is paramount in many medical imaging applications where movements need to be detected, corrected, or accounted for. Modern strategies rely on convolutional neural networks (CNN) and pose this problem as rigid registration. Yet, CNNs do not exploit natural symmetries in this task, as they are equivariant to translations (their outputs shift with their inputs) but not to rotations. Here we propose EquiTrack, the first method that uses recent steerable SE(3)-equivariant CNNs (E-CNN) for motion tracking. While steerable E-CNNs can extract corresponding features across different poses, testing them on noisy medical images reveals that they do not have enough learning capacity to learn noise invariance. Thus, we introduce a hybrid architecture that pairs a denoiser with an E-CNN to decouple the processing of anatomically irrelevant intensity features from the extraction of equivariant spatial features. Rigid transforms are then estimated in closed-form. EquiTrack outperforms state-of-the-art learning and optimisation methods for motion tracking in adult brain MRI and fetal MRI time series. Our code is available at https://github.com/BBillot/EquiTrack., Comment: Published at IEEE transactions on Medical Imaging

Published
2023
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2. Shape-aware Segmentation of the Placenta in BOLD Fetal MRI Time Series

Author

Abulnaga, S. Mazdak, Dey, Neel, Young, Sean I., Pan, Eileen, Hobgood, Katherine I., Wang, Clinton J., Grant, P. Ellen, Turk, Esra Abaci, and Golland, Polina

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition
Abstract

Blood oxygen level dependent (BOLD) MRI time series with maternal hyperoxia can assess placental oxygenation and function. Measuring precise BOLD changes in the placenta requires accurate temporal placental segmentation and is confounded by fetal and maternal motion, contractions, and hyperoxia-induced intensity changes. Current BOLD placenta segmentation methods warp a manually annotated subject-specific template to the entire time series. However, as the placenta is a thin, elongated, and highly non-rigid organ subject to large deformations and obfuscated edges, existing work cannot accurately segment the placental shape, especially near boundaries. In this work, we propose a machine learning segmentation framework for placental BOLD MRI and apply it to segmenting each volume in a time series. We use a placental-boundary weighted loss formulation and perform a comprehensive evaluation across several popular segmentation objectives. Our model is trained and tested on a cohort of 91 subjects containing healthy fetuses, fetuses with fetal growth restriction, and mothers with high BMI. Biomedically, our model performs reliably in segmenting volumes in both normoxic and hyperoxic points in the BOLD time series. We further find that boundary-weighting increases placental segmentation performance by 8.3% and 6.0% Dice coefficient for the cross-entropy and signed distance transform objectives, respectively. Our code and trained model is available at https://github.com/mabulnaga/automatic-placenta-segmentation., Comment: Accepted for publication at the Journal of Machine Learning for Biomedical Imaging (MELBA) https://melba-journal.org/2023:017. arXiv admin note: substantial text overlap with arXiv:2208.02895

Published
2023
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3. Dynamic Neural Fields for Learning Atlases of 4D Fetal MRI Time-series

Author

Chi, Zeen, Cong, Zhongxiao, Wang, Clinton J., Liu, Yingcheng, Turk, Esra Abaci, Grant, P. Ellen, Abulnaga, S. Mazdak, Golland, Polina, and Dey, Neel

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning
Abstract

We present a method for fast biomedical image atlas construction using neural fields. Atlases are key to biomedical image analysis tasks, yet conventional and deep network estimation methods remain time-intensive. In this preliminary work, we frame subject-specific atlas building as learning a neural field of deformable spatiotemporal observations. We apply our method to learning subject-specific atlases and motion stabilization of dynamic BOLD MRI time-series of fetuses in utero. Our method yields high-quality atlases of fetal BOLD time-series with $\sim$5-7$\times$ faster convergence compared to existing work. While our method slightly underperforms well-tuned baselines in terms of anatomical overlap, it estimates templates significantly faster, thus enabling rapid processing and stabilization of large databases of 4D dynamic MRI acquisitions. Code is available at https://github.com/Kidrauh/neural-atlasing, Comment: 6 pages, 2 figures. Accepted by Medical Imaging Meets NeurIPS 2023

Published
2023
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4. Consistency Regularization Improves Placenta Segmentation in Fetal EPI MRI Time Series

Author

Liu, Yingcheng, Karani, Neerav, Dey, Neel, Abulnaga, S. Mazdak, Xu, Junshen, Grant, P. Ellen, Turk, Esra Abaci, and Golland, Polina

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

The placenta plays a crucial role in fetal development. Automated 3D placenta segmentation from fetal EPI MRI holds promise for advancing prenatal care. This paper proposes an effective semi-supervised learning method for improving placenta segmentation in fetal EPI MRI time series. We employ consistency regularization loss that promotes consistency under spatial transformation of the same image and temporal consistency across nearby images in a time series. The experimental results show that the method improves the overall segmentation accuracy and provides better performance for outliers and hard samples. The evaluation also indicates that our method improves the temporal coherency of the prediction, which could lead to more accurate computation of temporal placental biomarkers. This work contributes to the study of the placenta and prenatal clinical decision-making. Code is available at https://github.com/firstmover/cr-seg.

Published
2023

5. AnyStar: Domain randomized universal star-convex 3D instance segmentation

Author

Dey, Neel, Abulnaga, S. Mazdak, Billot, Benjamin, Turk, Esra Abaci, Grant, P. Ellen, Dalca, Adrian V., and Golland, Polina

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning
Abstract

Star-convex shapes arise across bio-microscopy and radiology in the form of nuclei, nodules, metastases, and other units. Existing instance segmentation networks for such structures train on densely labeled instances for each dataset, which requires substantial and often impractical manual annotation effort. Further, significant reengineering or finetuning is needed when presented with new datasets and imaging modalities due to changes in contrast, shape, orientation, resolution, and density. We present AnyStar, a domain-randomized generative model that simulates synthetic training data of blob-like objects with randomized appearance, environments, and imaging physics to train general-purpose star-convex instance segmentation networks. As a result, networks trained using our generative model do not require annotated images from unseen datasets. A single network trained on our synthesized data accurately 3D segments C. elegans and P. dumerilii nuclei in fluorescence microscopy, mouse cortical nuclei in micro-CT, zebrafish brain nuclei in EM, and placental cotyledons in human fetal MRI, all without any retraining, finetuning, transfer learning, or domain adaptation. Code is available at https://github.com/neel-dey/AnyStar., Comment: Code available at https://github.com/neel-dey/AnyStar

Published
2023

6. Immunogenicity and protection efficacy of a COVID-19 DNA vaccine encoding spike protein with D614G mutation and optimization of large-scale DNA vaccine production

Author

Gül, Aytül, Erkunt Alak, Sedef, Can, Hüseyin, Karakavuk, Muhammet, Korukluoğlu, Gülay, Altaş, Ayşe Başak, Gül, Ceren, Karakavuk, Tuğba, Köseoğlu, Ahmet Efe, Ülbeği Polat, Hivda, Yazıcı Malkoçoğlu, Hilal, Taş Ekiz, Arzu, Abacı, İrem, Aksoy, Özge, Enül, Hakan, Adıay, Cumhur, Uzar, Serdar, Saraç, Fahriye, Ün, Cemal, Gürüz, Adnan Yüksel, Kantarcı, Ayşe Gülten, Akbaba, Hasan, Erel Akbaba, Gülşah, Yılmaz, Habibe, Değirmenci Döşkaya, Aysu, Taşbakan, Meltem, Pullukçu, Hüsnü, Karasulu, Ercüment, Tekin, Şaban, and Döşkaya, Mert

Published
2024
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9. Immunogenicity and protection efficacy of a COVID-19 DNA vaccine encoding spike protein with D614G mutation and optimization of large-scale DNA vaccine production

Author

Aytül Gül, Sedef Erkunt Alak, Hüseyin Can, Muhammet Karakavuk, Gülay Korukluoğlu, Ayşe Başak Altaş, Ceren Gül, Tuğba Karakavuk, Ahmet Efe Köseoğlu, Hivda Ülbeği Polat, Hilal Yazıcı Malkoçoğlu, Arzu Taş Ekiz, İrem Abacı, Özge Aksoy, Hakan Enül, Cumhur Adıay, Serdar Uzar, Fahriye Saraç, Cemal Ün, Adnan Yüksel Gürüz, Ayşe Gülten Kantarcı, Hasan Akbaba, Gülşah Erel Akbaba, Habibe Yılmaz, Aysu Değirmenci Döşkaya, Meltem Taşbakan, Hüsnü Pullukçu, Ercüment Karasulu, Şaban Tekin, and Mert Döşkaya

Subjects
SARS-CoV-2, DNA vaccine, K18-hACE2 transgenic mice, Large-scale production, Upstream, Downstream, Medicine, Science
Abstract

Abstract Severe acute respiratory syndrome coronavirus 2 had devastating consequences for human health. Despite the introduction of several vaccines, COVID-19 continues to pose a serious health risk due to emerging variants of concern. DNA vaccines gained importance during the pandemic due to their advantages such as induction of both arms of immune response, rapid development, stability, and safety profiles. Here, we report the immunogenicity and protective efficacy of a DNA vaccine encoding spike protein with D614G mutation (named pcoSpikeD614G) and define a large-scale production process. According to the in vitro studies, pcoSpikeD614G expressed abundant spike protein in HEK293T cells. After the administration of pcoSpikeD614G to BALB/c mice through intramuscular (IM) route and intradermal route using an electroporation device (ID + EP), it induced high level of anti-S1 IgG and neutralizing antibodies (P

Published
2024
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10. Salivary Sex Steroid Levels in Infants and the Relation with Infantile Colic

Author

Fulya Mete Kalaycı, Özlem Gürsoy Doruk, İbrahim Mert Erbaş, Osman Tolga İnce, Makbule Neslişah Tan, Adem Aydın, Ayhan Abacı, Ece Böber, and Korcan Demir

Subjects
gonadal activity, newborn, puberty, fussing, Pediatrics, RJ1-570, Diseases of the endocrine glands. Clinical endocrinology, RC648-665
Abstract

INTRODUCTION: The hypothalamic-pituitary-gonadal axis is active during minipuberty, the timing of which coincides with infantile colic. To the best of our knowledge, the relationship between these entities has not been previously investigated. METHODS: Saliva samples were collected from 15- to 60-day-old term infants (n=139) between 9 am and 5 pm. Group 1 included infants with infantile colic (n=68, 54.4% female) while the remaining healthy infants constituted Group 2 (n=71, 47.9% female). Salivary levels of estradiol (Esal) in females and testosterone (Tsal) in males were measured by ELISA in duplicate. RESULTS: The median (25th-75th centile) age and birth week for all infants were 33 (29-43) days and 39 (38.1-40) weeks, respectively. Levels of Tsal in males [Group 1, 73.35 (59.94-117.82) pg/mL vs Group 2, 77.66 (56.49-110.08) pg/mL, p=0.956] and Esal in females [Group 1, 3.91 (2.76-5.31) pg/mL vs Group 2, 4.03 (1.63-12.1) pg/mL, p=0.683] were similar. However, in subjects with infantile colic (Group 1), Esal and body mass index (BMI) standard deviation scores of females were slightly correlated (Group 1, rs= 0.393, p=0.016 vs. Group 2, rs= 0.308, p=0.076) and there was a significant correlation between the sampling time and Tsal in males (Group 1, rs= 0.469, p=0.009 vs. Group 2, rs= -0.005, p=0.976). DISCUSSION AND CONCLUSION: Random salivary sex steroid levels were similar in infants with and without infantile colic. However, in subjects with infantile colic, Esal levels in females were positively correlated with BMI and Tsal levels were higher later in the day among males. Thus, sex steroid production may be altered during minipuberty in subjects with infantile colic.

Published
2024
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11. Welfare assessment traits, milk quantity and quality, and profitability of Anatolian buffalo cows confined in closed-tied or semi-open free-stall barns can be affected by supplementary feeding at milking

Author

İbrahim Cihangir Okuyucu, Ahmet Akdağ, Hüseyin Erdem, Canan Kop-Bozbay, Samet Hasan Abacı, Ali Vaiz Garipoğlu, Esin Hazneci, and Nuh Ocak

Subjects
barn condition, feeding management, milk production, partial budget analysis, temperament score, water buffalo, Zoology, QL1-991
Abstract

Objective This study was conducted to evaluate the effect of offering (OSF) or not (NSF) supplemental feed at milking on temperament (TS), udder hygiene (UHS) and body condition (BCS) scores, and milk yield per milking (MYM), milk quality traits, and profitability of primiparous Anatolian buffalo cows at 90 days of lactation confined in closed-tied (CB) or semi-open free-stall (OB) barns. Methods In Experiment I, 108 cows were selected to encompass four treatments (OB-OSF, OB-NSF, CB-OSF, and CB-NSF) of 27 cows, considering barn type (OB and CB) and supplementary feed (OSF and NSF) at milking. In Experiment II, 60 OB cows were selected to encompass one of five groups of 12 cows each: i) no supplemental feed (CON), ii) commercial concentrate (CC), iii) CC + corn silage (CCS), iv) CCS + alfalfa hay (CSA), or v) CC + ryegrass silage (CRS) at milking. Results The TS and UHS of the OB and OSF cows were lower (better) than those of the CB and NSF cows, respectively. The OSF increased milk protein, lactose, and solids-not-fat but decreased milk freezing point and electrical conductivity compared with the NSF. The MYM and milk fat of the OB-OSF cows were higher than those of the OB-NSF and CB-NSF cows. The TS and UHS of the cows negatively correlated with MYM and some milk chemicals (fat, protein, and solids-not-fat), but BCS correlated positively. The TS and milk electrical conductivity of the CCS, CSA, and CRS cows were lower than those of the CON and CC cows, but BCS, MYM, and milk fat were higher. Partial budget analysis identified a higher net profit for supplemental feed-offered groups (OB-OSF, CCS, CSA, and CRS). Conclusion Offering roughage with concentrates at milking for indoor primiparous buffalo cows is more conducive to well-being, milk yield, milk quality, and economy.

Published
2024
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14. Automatic Segmentation of the Placenta in BOLD MRI Time Series

Author

Abulnaga, S. Mazdak, Young, Sean I., Hobgood, Katherine, Pan, Eileen, Wang, Clinton J., Grant, P. Ellen, Turk, Esra Abaci, and Golland, Polina

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning
Abstract

Blood oxygen level dependent (BOLD) MRI with maternal hyperoxia can assess oxygen transport within the placenta and has emerged as a promising tool to study placental function. Measuring signal changes over time requires segmenting the placenta in each volume of the time series. Due to the large number of volumes in the BOLD time series, existing studies rely on registration to map all volumes to a manually segmented template. As the placenta can undergo large deformation due to fetal motion, maternal motion, and contractions, this approach often results in a large number of discarded volumes, where the registration approach fails. In this work, we propose a machine learning model based on a U-Net neural network architecture to automatically segment the placenta in BOLD MRI and apply it to segmenting each volume in a time series. We use a boundary-weighted loss function to accurately capture the placental shape. Our model is trained and tested on a cohort of 91 subjects containing healthy fetuses, fetuses with fetal growth restriction, and mothers with high BMI. We achieve a Dice score of 0.83+/-0.04 when matching with ground truth labels and our model performs reliably in segmenting volumes in both normoxic and hyperoxic points in the BOLD time series. Our code and trained model are available at https://github.com/mabulnaga/automatic-placenta-segmentation., Comment: Accepted at MICCAI PIPPI 2022

Published
2022

15. Evaluation of Production Performance Parameters of Two Laying Hen Strains Housed in Four Housing Environments

Author

B Tainika, A Şekeroğlu, SH Abacı, A Akyol, M Duman, YE Şentürk, and M Avcı

Subjects
Aromatic plants, free-range production system, laying hen, performance, Animal culture, SF1-1100, Veterinary medicine, SF600-1100, Zoology, QL1-991
Abstract

ABSTRACT This study investigated the impact of housing environment on performance parameters of the Lohmann LSL Classic (LW) and Lohmann Sandy (LS) strains. The deep litter (DL), free access to outdoor Mentha piperita (MP), Petroselinum crispum (PC), and Medicago sativa (MS) housing environments were examined. A total of 260 four-week-old birds were randomly allotted to DL and outdoor plant-associated groups, with four and three replicates, respectively, and 10 birds per replicate. Data collection for weekly feed intake began at 4 weeks until the end of the study. Weekly hen weights were measured from 4 weeks of age until the age of 50% egg production; and then later, at 52 weeks of age. From the day of the first egg until the last day of the study, eggs laid in each nest box tier (upper, middle, bottom, and floor) were recorded and weighed at 9:00 a.m., 12:00 noon, and 3:00 p.m. Housing environment influenced the age at first egg and 50% egg production, hen-day egg production, feed intake during the egg-laying period, feed conversion ratio, average egg weight, and egg size distribution (p

Published
2024
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22. Examination of the Relationships between Internal and External Egg Quality Traits: A Structural Equation Model

Author

Samet Hasan Abacı, Taner Tunç, Hasan Önder, Kadir Erensoy, and Musa Sarıca

Subjects
external, internal, egg quality, laying hen, relationship, Agriculture, Agriculture (General), S1-972
Abstract

This study aimed to determine the structural relationship between internal and external egg quality (IEEQ) traits. In this study, 114 eggs produced from 24 weeks-old laying hens reared at the Ondokuz Mayis University Research Farm were used. Egg weight (EW), egg width (EWi), egg length (EL) and shell weight (SW) measurements were examined as external quality traits. Also, albumen height (AH), albumen width (AW), yolk height (YH), yolk weight (YW) and yolk diameter (YD) parameters were used as internal quality traits. Structural Equation Model (SEM) was used to determine the relationships between IEEQ traits. Data analysis was performed with the LISREL package. It has been determined that the variables that are important in determining the external egg quality are SW, EWi and EL. When the variables explaining the internal traits were examined, it was determined that the YW, YD, AW, AH and YH were significant. It was determined that the relationship between external egg quality and internal quality was 0.96 and external quality explained the internal quality by 91%. It has been determined that the SEM used in this study is sufficient to explain the relationship between internal and external quality.

Published
2023
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23. Volumetric Parameterization of the Placenta to a Flattened Template

Author

Abulnaga, S. Mazdak, Turk, Esra Abaci, Bessmeltsev, Mikhail, Grant, P. Ellen, Solomon, Justin, and Golland, Polina

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

We present a volumetric mesh-based algorithm for parameterizing the placenta to a flattened template to enable effective visualization of local anatomy and function. MRI shows potential as a research tool as it provides signals directly related to placental function. However, due to the curved and highly variable in vivo shape of the placenta, interpreting and visualizing these images is difficult. We address interpretation challenges by mapping the placenta so that it resembles the familiar ex vivo shape. We formulate the parameterization as an optimization problem for mapping the placental shape represented by a volumetric mesh to a flattened template. We employ the symmetric Dirichlet energy to control local distortion throughout the volume. Local injectivity in the mapping is enforced by a constrained line search during the gradient descent optimization. We validate our method using a research study of 111 placental shapes extracted from BOLD MRI images. Our mapping achieves sub-voxel accuracy in matching the template while maintaining low distortion throughout the volume. We demonstrate how the resulting flattening of the placenta improves visualization of anatomy and function. Our code is freely available at https://github.com/mabulnaga/placenta-flattening ., Comment: Accepted to IEEE TMI ( (c) IEEE). This manuscript expands the MICCAI 2019 paper (arXiv:1903.05044) by developing additional template models and extensions to improve robustness, expanded evaluation on a significantly larger dataset, and experiments and discussion demonstrating utility for clinical research. Code is available at https://github.com/mabulnaga/placenta-flattening

Published
2021

24. Rapid head-pose detection for automated slice prescription of fetal-brain MRI

Author

Hoffmann, Malte, Turk, Esra Abaci, Gagoski, Borjan, Morgan, Leah, Wighton, Paul, Tisdall, M. Dylan, Reuter, Martin, Adalsteinsson, Elfar, Grant, P. Ellen, Wald, Lawrence L., and van der Kouwe, André J. W.

Subjects
Computer Science - Computer Vision and Pattern Recognition, Electrical Engineering and Systems Science - Image and Video Processing, Physics - Medical Physics, Quantitative Biology - Neurons and Cognition
Abstract

In fetal-brain MRI, head-pose changes between prescription and acquisition present a challenge to obtaining the standard sagittal, coronal and axial views essential to clinical assessment. As motion limits acquisitions to thick slices that preclude retrospective resampling, technologists repeat ~55-second stack-of-slices scans (HASTE) with incrementally reoriented field of view numerous times, deducing the head pose from previous stacks. To address this inefficient workflow, we propose a robust head-pose detection algorithm using full-uterus scout scans (EPI) which take ~5 seconds to acquire. Our ~2-second procedure automatically locates the fetal brain and eyes, which we derive from maximally stable extremal regions (MSERs). The success rate of the method exceeds 94% in the third trimester, outperforming a trained technologist by up to 20%. The pipeline may be used to automatically orient the anatomical sequence, removing the need to estimate the head pose from 2D views and reducing delays during which motion can occur., Comment: 19 pages, 10 figures, 2 tables, fetal MRI, head-pose detection, MSER, scan automation, scan prescription, slice positioning, final published version

Published
2021
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27. STRESS: Super-Resolution for Dynamic Fetal MRI using Self-Supervised Learning

Author

Xu, Junshen, Turk, Esra Abaci, Grant, P. Ellen, Golland, Polina, and Adalsteinsson, Elfar

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition
Abstract

Fetal motion is unpredictable and rapid on the scale of conventional MR scan times. Therefore, dynamic fetal MRI, which aims at capturing fetal motion and dynamics of fetal function, is limited to fast imaging techniques with compromises in image quality and resolution. Super-resolution for dynamic fetal MRI is still a challenge, especially when multi-oriented stacks of image slices for oversampling are not available and high temporal resolution for recording the dynamics of the fetus or placenta is desired. Further, fetal motion makes it difficult to acquire high-resolution images for supervised learning methods. To address this problem, in this work, we propose STRESS (Spatio-Temporal Resolution Enhancement with Simulated Scans), a self-supervised super-resolution framework for dynamic fetal MRI with interleaved slice acquisitions. Our proposed method simulates an interleaved slice acquisition along the high-resolution axis on the originally acquired data to generate pairs of low- and high-resolution images. Then, it trains a super-resolution network by exploiting both spatial and temporal correlations in the MR time series, which is used to enhance the resolution of the original data. Evaluations on both simulated and in utero data show that our proposed method outperforms other self-supervised super-resolution methods and improves image quality, which is beneficial to other downstream tasks and evaluations.

Published
2021

28. Samsun İlindeki Tarım Danışmanlarının Karşılaştıkları Sorunlar ve Çözüm Önerileri

Author

Nur İlkay Abacı

Subjects
tarım danışmanları, danışmanlık faaliyetleri, karşılaşılan sorunlar, samsun, çiftçi, Agriculture, Agriculture (General), S1-972
Abstract

Bu araştırmada Samsun ilindeki tarım danışmanlarının karşılaştıkları sorunlar ele alınmaktadır. Bu doğrultuda Samsun ilinde görev yapan 51 tarım danışmanı ile anket yapılarak, ele alınan tarım danışmanlarına ait bilgiler ve yaşadıkları sorunlar tespit edilmiştir. Araştırmanın sonuçları, Samsun ilindeki tarım danışmanlarının genç, eğitimli ve iletişim becerilerine önem veren bir grup olduğunu ve düzenli olarak kendilerini geliştirdiklerini göstermektedir. Araştırma aynı zamanda tarım danışmanlarının yaşadıkları sorunları da ortaya koymaktadır. Bu sorunlar arasında tarım danışmanlığı sisteminin yeterince kurumsallaşmamış olması, hukuki düzenlemelerin eksikliği ve görev-yetki belirsizlikleri gibi önemli konular yer almaktadır. Ayrıca çiftçilerin danışmanlık hizmetlerine olan talebinin düşük olması ve kamu kuruluşları arasındaki koordinasyon eksiklikleri de sektörün sorunları arasında yer almaktadır. Bu bağlamda, tarım danışmanları için düzenli hizmet içi eğitim sağlanmalıdır. Tarım danışmanlarının saha çalışmalarını daha etkin bir şekilde sağlamak için teknolojik araçlardan yararlanılabilir. Tarım danışmanlarının çalışma usul ve esaslarını belirleyen yasal düzenlemeler daha açık ve net hale getirilebilir. Çiftçi bilinçlendirme çalışmaları ve aynı zamanda tarım danışmanlarının saha faaliyetlerini sürdürülebilmeleri için finansman kaynaklarının önceden planlanması ve güvence altına alınması önemlidir.

Published
2023
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31. Equivariant Filters for Efficient Tracking in 3D Imaging

Author

Moyer, Daniel, Turk, Esra Abaci, Grant, P Ellen, Wells, William M., and Golland, Polina

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning, Quantitative Biology - Quantitative Methods
Abstract

We demonstrate an object tracking method for 3D images with fixed computational cost and state-of-the-art performance. Previous methods predicted transformation parameters from convolutional layers. We instead propose an architecture that does not include either flattening of convolutional features or fully connected layers, but instead relies on equivariant filters to preserve transformations between inputs and outputs (e.g. rot./trans. of inputs rotate/translate outputs). The transformation is then derived in closed form from the outputs of the filters. This method is useful for applications requiring low latency, such as real-time tracking. We demonstrate our model on synthetically augmented adult brain MRI, as well as fetal brain MRI, which is the intended use-case., Comment: MICCAI 2021 Early Accept

Published
2021

33. Enhanced detection of fetal pose in 3D MRI by Deep Reinforcement Learning with physical structure priors on anatomy

Author

Zhang, Molin, Xu, Junshen, Turk, Esra Abaci, Grant, P. Ellen, Golland, Polina, and Adalsteinsson, Elfar

Subjects
Computer Science - Computer Vision and Pattern Recognition, Electrical Engineering and Systems Science - Image and Video Processing
Abstract

Fetal MRI is heavily constrained by unpredictable and substantial fetal motion that causes image artifacts and limits the set of viable diagnostic image contrasts. Current mitigation of motion artifacts is predominantly performed by fast, single-shot MRI and retrospective motion correction. Estimation of fetal pose in real time during MRI stands to benefit prospective methods to detect and mitigate fetal motion artifacts where inferred fetal motion is combined with online slice prescription with low-latency decision making. Current developments of deep reinforcement learning (DRL), offer a novel approach for fetal landmarks detection. In this task 15 agents are deployed to detect 15 landmarks simultaneously by DRL. The optimization is challenging, and here we propose an improved DRL that incorporates priors on physical structure of the fetal body. First, we use graph communication layers to improve the communication among agents based on a graph where each node represents a fetal-body landmark. Further, additional reward based on the distance between agents and physical structures such as the fetal limbs is used to fully exploit physical structure. Evaluation of this method on a repository of 3-mm resolution in vivo data demonstrates a mean accuracy of landmark estimation within 10 mm of ground truth as 87.3%, and a mean error of 6.9 mm. The proposed DRL for fetal pose landmark search demonstrates a potential clinical utility for online detection of fetal motion that guides real-time mitigation of motion artifacts as well as health diagnosis during MRI of the pregnant mother., Comment: 10 pages, 3 figures, MICCAI 2020

Published
2020

34. Semi-Supervised Learning for Fetal Brain MRI Quality Assessment with ROI consistency

Author

Xu, Junshen, Lala, Sayeri, Gagoski, Borjan, Turk, Esra Abaci, Grant, P. Ellen, Golland, Polina, and Adalsteinsson, Elfar

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition
Abstract

Fetal brain MRI is useful for diagnosing brain abnormalities but is challenged by fetal motion. The current protocol for T2-weighted fetal brain MRI is not robust to motion so image volumes are degraded by inter- and intra- slice motion artifacts. Besides, manual annotation for fetal MR image quality assessment are usually time-consuming. Therefore, in this work, a semi-supervised deep learning method that detects slices with artifacts during the brain volume scan is proposed. Our method is based on the mean teacher model, where we not only enforce consistency between student and teacher models on the whole image, but also adopt an ROI consistency loss to guide the network to focus on the brain region. The proposed method is evaluated on a fetal brain MR dataset with 11,223 labeled images and more than 200,000 unlabeled images. Results show that compared with supervised learning, the proposed method can improve model accuracy by about 6\% and outperform other state-of-the-art semi-supervised learning methods. The proposed method is also implemented and evaluated on an MR scanner, which demonstrates the feasibility of online image quality assessment and image reacquisition during fetal MR scans.

Published
2020

38. COVID-19 Pandemi Sürecinde Tip 1 Diyabetli Çocuğu Olan Ebeveynlerin Kaygısının Aile İşlevleri ve HbA1c Düzeyleri Üzerine Etkisi

Author

Dıjle Ayar, Ayhan Abacı, Ece Böber, Zühal Bahar, and Kübra Pınar Gürkan

Subjects
type 1 diyabet, aile işlevi, kaygı, type 1 diabetes, family function., anxiety, Medicine
Abstract

Amaç: Bu çalışmada, COVID-19 pandemi sürecinde tip 1 diyabetli çocuğu olan ebeveynlerin sürekli ve durumluk kaygısının aile işlevleri üzerine etkisinin incelenmesi amaçlanmıştır. Yöntem ve Gereçler: Tanımlayıcı, kesitsel ve ilişkisel tipteki bu çalışma rastgele örnekleme yöntemi ile karantina döneminde yapılmıştır. Çalışma, Türkiye’nin batısındaki bir hastanenin pediatrik endokrinoloji polikliniğine kayıtlı 134 tip 1 diyabetli çocuğun ebeveynleri ile tamamlanmıştır. Bulgular: Tip 1 diyabetli çocuğu olan ebeveynlerin aile işlevlerini sırasıyla en çok durumluk kaygı düzeyi ve sürekli kaygı düzeyi etkilediği saptanmıştır. Modelin genelinde aile işlevselliğini etkileyen faktörlerin %43’ünün ((F= 51.356, p

Published
2023
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41. Changes in Vitellogenin, Abdominal Lipid Content, and Hypopharyngeal Gland Development in Honey Bees Fed Diets with Different Protein Sources

Author

Mustafa Güneşdoğdu, Aybike Sarıoğlu-Bozkurt, Ahmet Şekeroğlu, and Samet Hasan Abacı

Subjects
Apis mellifera, physiology, diet, feeding, Science
Abstract

Honey bees play an important role in the pollination of flowering plants. When honey bee colonies are deficient in pollen, one of their main nutrients, protein supplements are required. In this study, the effects of diets with six different protein sources on the physiological characteristics of worker bees (vitellogenin (Vg), abdominal lipid content (ALC), hypopharyngeal gland (HPG)) and consumption were investigated. The protein sources of the diets (diet I, …, diet VI) included pollen, spirulina dust (Arthrospira platensis Gomont), fresh egg yolk, lyophilized lactose-free skimmed milk powder, active fresh yeast, and ApiProtein. It was identified that consumption by worker bees was highest in the diet group supplemented with spirulina (diet II). Although there was no statistical difference regarding the Vg content in the hemolymph, numerically, the highest content was found in diet group IV (lyophilized lactose-free skimmed milk powder) (4.73 ± 0.03 ng/mL). ALC and HPG were highest in the group fed diet II. These results suggest that offering honey bees diets with certain protein sources can support their physiological traits.

Published
2024
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43. Fetal Pose Estimation in Volumetric MRI using a 3D Convolution Neural Network

Author

Xu, Junshen, Zhang, Molin, Turk, Esra Abaci, Zhang, Larry, Grant, Ellen, Ying, Kui, Golland, Polina, and Adalsteinsson, Elfar

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition
Abstract

The performance and diagnostic utility of magnetic resonance imaging (MRI) in pregnancy is fundamentally constrained by fetal motion. Motion of the fetus, which is unpredictable and rapid on the scale of conventional imaging times, limits the set of viable acquisition techniques to single-shot imaging with severe compromises in signal-to-noise ratio and diagnostic contrast, and frequently results in unacceptable image quality. Surprisingly little is known about the characteristics of fetal motion during MRI and here we propose and demonstrate methods that exploit a growing repository of MRI observations of the gravid abdomen that are acquired at low spatial resolution but relatively high temporal resolution and over long durations (10-30 minutes). We estimate fetal pose per frame in MRI volumes of the pregnant abdomen via deep learning algorithms that detect key fetal landmarks. Evaluation of the proposed method shows that our framework achieves quantitatively an average error of 4.47 mm and 96.4\% accuracy (with error less than 10 mm). Fetal pose estimation in MRI time series yields novel means of quantifying fetal movements in health and disease, and enables the learning of kinematic models that may enhance prospective mitigation of fetal motion artifacts during MRI acquisition., Comment: MICCAI 2019

Published
2019

44. Placental Flattening via Volumetric Parameterization

Author

Abulnaga, S. Mazdak, Turk, Esra Abaci, Bessmeltsev, Mikhail, Grant, P. Ellen, Solomon, Justin, and Golland, Polina

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

We present a volumetric mesh-based algorithm for flattening the placenta to a canonical template to enable effective visualization of local anatomy and function. Monitoring placental function in vivo promises to support pregnancy assessment and to improve care outcomes. We aim to alleviate visualization and interpretation challenges presented by the shape of the placenta when it is attached to the curved uterine wall. To do so, we flatten the volumetric mesh that captures placental shape to resemble the well-studied ex vivo shape. We formulate our method as a map from the in vivo shape to a flattened template that minimizes the symmetric Dirichlet energy to control distortion throughout the volume. Local injectivity is enforced via constrained line search during gradient descent. We evaluate the proposed method on 28 placenta shapes extracted from MRI images in a clinical study of placental function. We achieve sub-voxel accuracy in mapping the boundary of the placenta to the template while successfully controlling distortion throughout the volume. We illustrate how the resulting mapping of the placenta enhances visualization of placental anatomy and function. Our code is freely available at https://github.com/mabulnaga/placenta-flattening ., Comment: MICCAI 2019

Published
2019

47. Has the Frequency of Precocious Puberty and Rapidly Progressive Early Puberty Increased in Girls During the COVID-19 Pandemic?

Author

Kübra Yüksek Acinikli, İbrahim Mert Erbaş, Özge Besci, Korcan Demir, Ayhan Abacı, and Ece Böber

Subjects
lhrh, physical inactivity, distance education, school closures, quarantine, Pediatrics, RJ1-570, Diseases of the endocrine glands. Clinical endocrinology, RC648-665
Abstract

INTRODUCTION: Early puberty is development of secondary sex characteristics earlier than the expected normal age range. We subjectively observed an increased frequency of early puberty during the Coronavirus disease-2019 (COVID-19) lockdown and aimed to show the clinical, demographic characteristics of the cases and the change in its incidence. METHODS: Female patients with central precocious puberty (CPP, n=28) and rapidly progressive early puberty (RPEP, n=61), presenting to our clinic before (January 2019-March 2020) and during the COVID-19 pandemic (April 2020-June 2021) were included. RESULTS: Among 28 CPP cases, six (21%) presented before the pandemic lockdown, whereas 22 (79%) were diagnosed during the COVID-19 pandemic lockdown. While RPEP was seen in 16 (26%) patients before the pandemic, 45 (74%) patients were diagnosed during the lockdown period. Presentation with menarche was seen in 15 RPEP patients; two (13%) were in the prepandemic period and 13 (87%) were in the lockdown period. Chronological age, bone age, bone age to chronological age ratio, height, weight, and body mass index standard deviation scores of patients with RPEP and CPP were similar between the prepandemic and pandemic period. DISCUSSION AND CONCLUSION: In this cohort, the frequency of CPP and RPP cases were significantly (p

Published
2022
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49. 3D Fetal Pose Estimation with Adaptive Variance and Conditional Generative Adversarial Network

Author

Xu, Junshen, Zhang, Molin, Turk, Esra Abaci, Grant, P. Ellen, Golland, Polina, Adalsteinsson, Elfar, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Woeginger, Gerhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Hu, Yipeng, editor, Licandro, Roxane, editor, Noble, J. Alison, editor, Hutter, Jana, editor, Aylward, Stephen, editor, Melbourne, Andrew, editor, Abaci Turk, Esra, editor, and Torrents Barrena, Jordina, editor

Published
2020
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