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19. Anxiety Levels among Five-Year-Old Children Undergoing ART Restoration-A Cross-Sectional Study

Author

Ishan, K.K. Shivlingesh, Vartika Agarwal, Bhuvan Deep Gupta, Richa Anand, Abhinav Sharma, Sumedha Kushwaha, and Khateeb Khan

Subjects
atraumatic restorative treatment, gic, heart rate, modified venham scale of anxiety, Medicine
Abstract

Introduction: Atraumatic Restorative Treatment (ART) involves manually excavating the carious part of the tooth and restoring the prepared cavity with chemically adhesive restorative material [Glass Ionomer Cement (GIC)] and it may induce and/or impact the dental anxiety in children. It is well established that ART procedure is less anxiety producing when compared with other restorative procedures using dental drill. Aim: The aim of this study was to evaluate the anxiety levels among five-year-old children undergoing ART restoration in I.T.S. Dental College, Greater Noida, India. Materials and Methods: A sample of 50, five-year-old children visiting the Outpatient Department (OPD) of ITS Dental College, Greater Noida was selected for ART treatment using Fuji IX GIC. Modified Venham Anxiety Scale based on their behaviour and heart rate of the children were measured and recorded before, during and after the ART procedure. Heart rate was measured using Radial Pulse examination method. Chi-square test was used and tests were conducted using IBM SPSS software (ver.20.0; IBM, Chicago, IL, USA). Results: Before the ART treatment, heart rates and Modified Venham Anxiety Scores of majority of children were higher than that after the treatment. A p-value was statistically significant (0.028 and 0.048 respectively) for association of gender with heart rate and Modified Venham’s score before the ART treatment. No statistically significant relation was found between the variables during and after the ART treatment. Conclusion: The level of anxiety for ART treatment in children was higher before the treatment than that during and after the treatment. There is a correlation between the gender of children and their level of anxiety for ART treatment.

Published
2017
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22. Ecotoxicity of Cadmium along the Soil-Cotton Plant-Cotton Bollworm System: Biotransfer, Trophic Accumulation, Plant Growth, Induction of Insect Detoxification Enzymes, and Immunocompetence.

Author

Shen R, Hussain K, Liu N, Li J, Yu J, Zhao J, Li W, and Yang S

Subjects
Animals, Moths growth & development, Moths metabolism, Moths drug effects, Inactivation, Metabolic, Glutathione Transferase metabolism, Insect Proteins metabolism, Insect Proteins genetics, Plant Roots metabolism, Plant Roots growth & development, Plant Roots drug effects, Plant Roots chemistry, Plant Roots parasitology, Monophenol Monooxygenase metabolism, Biotransformation, Acetylcholinesterase metabolism, Cadmium metabolism, Cadmium toxicity, Larva growth & development, Larva metabolism, Larva drug effects, Soil Pollutants metabolism, Soil Pollutants toxicity, Gossypium growth & development, Gossypium metabolism, Gossypium parasitology
Abstract

Cadmium (Cd) is a hazardous element that may jeopardize environmental safety and human health through biotransfer and trophic accumulation. Here, we tested Cd toxicity on cotton plants, cotton bollworms, and their responses. Results demonstrated that Cd accumulated in plant roots, aerial parts, insect larvae, pupae, and frass in a dose-dependent pattern. The ∼9.35 mg kg -1 of Cd in plant aerial parts, ∼3.68 in larvae, ∼6.43 in pupae, and high transfer coefficient (∼5.59) indicate significant mobility. The ∼19.61 mg kg -1 of Cd in larvae frass suggests an effective detoxification strategy, while BAF cotton (∼1.14) and BAF worm (∼0.54) indicated low bioaccumulation. Cadmium exposure resulted in compromised plant growth and yield as well as alterations in photosynthetic pigment contents, antioxidant enzyme activities, and certain life history traits of cotton bollworms. Furthermore, carboxylesterase activity and encapsulation rates of insect larvae decreased with increasing Cd concentrations, whereas acetylcholinesterase, phenol oxidase, glutathione S-transferase, and multifunctional oxidase exhibited hormesis responses.

Published
2024
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23. Transporters and phytohormones analysis reveals differential regulation of ryegrass (Lolium perenne L.) in response to cadmium and arsenic stresses.

Author

Li W, Li J, Hussain K, Peng K, Yu J, Xu M, and Yang S

Subjects
Plant Proteins metabolism, Plant Proteins genetics, Indoleacetic Acids metabolism, Abscisic Acid metabolism, Transcription Factors metabolism, Transcription Factors genetics, Cadmium toxicity, Lolium drug effects, Lolium metabolism, Lolium genetics, Arsenic toxicity, Plant Growth Regulators metabolism, Plant Growth Regulators pharmacology, Gene Expression Regulation, Plant drug effects, Stress, Physiological drug effects
Abstract

Cadmium (Cd) and arsenic (As) are two highly toxic heavy metals and metalloids that coexist in many situations posing severe threats to plants. Our investigation was conducted to explore the different regulatory mechanisms of ryegrass (Lolium perenne L.) responding to individual and combined Cd and As stresses in hydroponics. Results showed that the ryegrass well-growth phenotype was not affected by Cd stress of 10 mg·L -1 . However, As of 10 mg·L -1 caused rapid water loss, proline surge, and chlorosis in shoots, suggesting that ryegrass was highly sensitive to As. Transcriptomic analysis revealed that the transcription factor LpIRO2 mediated the upregulation of ZIP1 and YSL6 that played an important role in Cd tolerance. We found that the presence of As caused the overexpression of LpSWT12, a process potentially regulated by bHLH14, to mitigate hyperosmolarity. Indoleacetic acid (IAA) and abscisic acid (ABA) contents and expression of their signaling-related genes were significantly affected by As stress rather than Cd. We predict a regulatory network to illustrate the interaction between transporters, transcription factors, and signaling transduction, and explain the antagonism of Cd and As toxicity. This present work provides a research basis for plant protection from Cd and As pollution., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published
2024
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24. Inferring Neural Communication Dynamics from Field Potentials Using Graph Diffusion Autoregression.

Author

Schwock F, Bloch J, Khateeb K, Zhou J, Atlas L, and Yazdan-Shahmorad A

Abstract

Estimating dynamic network communication is attracting increased attention, spurred by rapid advancements in multi-site neural recording technologies and efforts to better understand cognitive processes. Yet, traditional methods, which infer communication from statistical dependencies among distributed neural recordings, face core limitations: they do not model neural interactions in a biologically plausible way, neglect spatial information from the recording setup, and yield predominantly static estimates that cannot capture rapid changes in the brain. To address these issues, we introduce a graph diffusion autoregressive model. Designed for distributed field potential recordings, our model combines vector autoregression with a network communication process to produce a high-resolution communication signal. We successfully validated the model on simulated neural activity and recordings from subdural and intracortical micro-electrode arrays placed in macaque sensorimotor cortex demonstrating its ability to describe rapid communication dynamics induced by optogenetic stimulation, changes in resting state communication, and the trial-by-trial variability during a reach task.

Published
2024
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25. Early Intervention with Electrical Stimulation Reduces Neural Damage After Stroke in Non-human Primates.

Author

Zhou J, Khateeb K, and Yazdan-Shahmorad A

Abstract

Ischemic stroke is a neurological condition that results in significant mortality and long-term disability for adults, creating huge health burdens worldwide. For stroke patients, acute intervention offers the most critical therapeutic opportunity as it can reduce irreversible tissue injury and improve functional outcomes. However, currently available treatments within the acute window are highly limited. Although emerging neuromodulation therapies have been tested for chronic stroke patients, acute stimulation is rarely studied due to the risk of causing adverse effects related to ischemia-induced electrical instability. To address this gap, we combined electrophysiology and histology tools to investigate the effects of acute electrical stimulation on ischemic neural damage in non-human primates. Specifically, we induced photothrombotic lesions in the monkey sensorimotor cortex while collecting electrocorticography (ECoG) signals through a customized neural interface. Gamma activity in ECoG was used as an electrophysiological marker to track the effects of stimulation on neural activation. Meanwhile, histological analysis including Nissl, cFos, and microglial staining was performed to evaluate the tissue response to ischemic injury. Comparing stimulated monkeys to controls, we found that theta-burst stimulation administered directly adjacent to the ischemic infarct at 1 hour post-stroke briefly inhibits peri-infarct neuronal activation as reflected by decreased ECoG gamma power and cFos expression. Meanwhile, lower microglial activation and smaller lesion volumes were observed in animals receiving post-stroke stimulation. Together, these results suggest that acute electrical stimulation can be used safely and effectively as an early stroke intervention to reduce excitotoxicity and inflammation, thus mitigating neural damage and enhancing stroke outcomes., Competing Interests: Competing Interest Statement: The authors declare no competing interest.

Published
2023
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26. Protocol to study ischemic stroke by photothrombotic lesioning in the cortex of non-human primates.

Author

Stanis N, Khateeb K, Zhou J, Wang RK, and Yazdan-Shahmorad A

Subjects
Animals, Primates, Cerebral Cortex, Neurophysiology, Ischemic Stroke
Abstract

Neurorehabilitation strategies for ischemic stroke have shown promise for functional recovery, yet minimal tools are available to study rehabilitation techniques in non-human primates (NHPs). Here, we present a protocol to study rehabilitation techniques in NHPs using a photothrombotic technique, a form of optical focal lesioning. We also describe steps for simultaneous neurophysiological recording and in vivo validation through vascular flow imaging. This interface can examine emerging neurorehabilitation strategies in the post-stroke environment in NHPs that are evolutionarily close to humans. For complete details on the use and execution of this protocol, please refer to Khateeb et al. (2022). 6 ., Competing Interests: Declaration of interests R.K.W. discloses intellectual property owned by the Oregon Health and Science University and the University of Washington. He is a consultant to Carl Zeiss Meditec., (Copyright © 2023 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2023
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27. Neuroprotective Effects of Electrical Stimulation Following Ischemic Stroke in Non-Human Primates.

Author

Zhou J, Khateeb K, Gala A, Rahimi M, Griggs DJ, Ip Z, and Yazdan-Shahmorad A

Subjects
Animals, Electric Stimulation, Primates, Ischemic Stroke, Neuroprotective Agents, Sensorimotor Cortex, Stroke complications, Stroke therapy
Abstract

Brain stimulation has emerged as a novel therapy for ischemic stroke, a major cause of brain injury that often results in lifelong disability. Although past works in rodents have demonstrated protective effects of stimulation following stroke, few of these results have been replicated in humans due to the anatomical differences between rodent and human brains and a limited understanding of stimulation-induced network changes. Therefore, we combined electrophysiology and histology to study the neuroprotective mechanisms of electrical stimulation following cortical ischemic stroke in non-human primates. To produce controlled focal lesions, we used the photothrombotic method to induce targeted vasculature damage in the sensorimotor cortices of two macaques while collecting electrocorticography (ECoG) signals bilaterally. In another two monkeys, we followed the same lesioning procedures and applied repeated electrical stimulation via an ECoG electrode adjacent to the lesion. We studied the protective effects of stimulation on neural dynamics using ECoG signal power and coherence. In addition, we performed histological analysis to evaluate the differences in lesion volume. In comparison to controls, the ECoG signals showed decreased gamma power across the sensorimotor cortices in stimulated animals. Meanwhile, Nissl staining revealed smaller lesion volumes for the stimulated group, suggesting that electrical stimulation may exert neuroprotection by suppressing post-ischemic neural activity. With the similarity between NHP and human brains, this study paves the path for developing effective stimulation-based therapy for acute stroke in clinical studies.

Published
2022
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28. Demonstration of an Optimized Large-scale Optogenetic Cortical Interface for Non-human Primates.

Author

Griggs DJ, Bloch J, Fisher S, Ojemann WKS, Coubrough KM, Khateeb K, Chu M, and Yazdan-Shahmorad A

Subjects
Animals, Brain physiology, Neurons physiology, Photic Stimulation, Optogenetics methods, Primates
Abstract

Optogenetics is a powerful neuroscientific tool which allows neurons to be modulated by optical stimulation. Despite widespread optogenetic experimentation in small animal models, optogenetics in non-human primates (NHPs) remains a niche field, particularly at the large scales necessary for multi-regional neural research. We previously published a large-scale, chronic optogenetic cortical interface for NHPs which was successful but came with a number of limitations. In this work, we present an optimized interface which improves upon the stability and scale of our previous interface while using more easily replicable methods to increase our system's availability to the scientific community. Specifically, we (1) demonstrate the long-term (~3 months) optical access to the brain achievable using a commercially-available transparent artificial dura with embedded electrodes, (2) showcase large-scale optogenetic expression achievable with simplified (magnetic resonance-free) surgical techniques, and (3) effectively modulated the expressing areas at large scales (~1 cm 2 ) by light emitting diode (LED) arrays assembled in-house.

Published
2022
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29. A versatile toolbox for studying cortical physiology in primates.

Author

Khateeb K, Bloch J, Zhou J, Rahimi M, Griggs DJ, Kharazia VN, Le MN, Wang RK, and Yazdan-Shahmorad A

Subjects
Animals, Primates, Macaca, Brain physiology, Electric Stimulation Therapy
Abstract

Lesioning and neurophysiological studies have facilitated the elucidation of cortical functions and mechanisms of functional recovery following injury. Clinical translation of such studies is contingent on their employment in non-human primates (NHPs), yet tools for monitoring and modulating cortical physiology are incompatible with conventional lesioning techniques. To address these challenges, we developed a toolbox validated in seven macaques. We introduce the photothrombotic method for inducing focal cortical lesions, a quantitative model for designing experiment-specific lesion profiles and optical coherence tomography angiography (OCTA) for large-scale (~5 cm 2 ) monitoring of vascular dynamics. We integrate these tools with our electrocorticographic array for large-scale monitoring of neural dynamics and testing stimulation-based interventions. Advantageously, this versatile toolbox can be incorporated into established chronic cranial windows. By combining optical and electrophysiological techniques in the NHP cortex, we can enhance our understanding of cortical functions, investigate functional recovery mechanisms, integrate physiological and behavioral findings, and develop neurorehabilitative treatments. MOTIVATION The primate neocortex encodes for complex functions and behaviors, the physiologies of which are yet to be fully understood. Such an understanding in both healthy and diseased states can be crucial for the development of effective neurorehabilitative strategies. However, there is a lack of a comprehensive and adaptable set of tools that enables the study of multiple physiological phenomena in healthy and injured brains. Therefore, we developed a toolbox with the capability to induce targeted cortical lesions, monitor dynamics of underlying cortical microvasculature, and record and stimulate neural activity. With this toolbox, we can enhance our understanding of cortical functions, investigate functional recovery mechanisms, test stimulation-based interventions, and integrate physiological and behavioral findings., Competing Interests: DECLARATION OF INTERESTS R.K.W. discloses intellectual property owned by the Oregon Health and Science University and the University of Washington. He is a consultant to Carl Zeiss Meditec. All other authors declare no competing interests.

Published
2022
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30. Multi-modal artificial dura for simultaneous large-scale optical access and large-scale electrophysiology in non-human primate cortex.

Author

Griggs DJ, Khateeb K, Zhou J, Liu T, Wang R, and Yazdan-Shahmorad A

Subjects
Animals, Electrophysiological Phenomena, Electrophysiology, Primates, Optogenetics, Sensorimotor Cortex
Abstract

Objective. Non-human primates (NHPs) are critical for development of translational neural technologies because of their neurological and neuroanatomical similarities to humans. Large-scale neural interfaces in NHPs with multiple modalities for stimulation and data collection poise us to unveil network-scale dynamics of both healthy and unhealthy neural systems. We aim to develop a large-scale multi-modal interface for NHPs for the purpose of studying large-scale neural phenomena including neural disease, damage, and recovery. Approach. We present a multi-modal artificial dura (MMAD) composed of flexible conductive traces printed into transparent medical grade polymer. Our MMAD provides simultaneous neurophysiological recordings and optical access to large areas of the cortex (∼3 cm 2 ) and is designed to mitigate photo-induced electrical artifacts. The MMAD is the centerpiece of the interfaces we have designed to support electrocorticographic recording and stimulation, cortical imaging, and optogenetic experiments, all at the large-scales afforded by the brains of NHPs. We performed electrical and optical experiments bench-side and in vivo with macaques to validate the utility of our MMAD. Main results. Using our MMAD we present large-scale electrocorticography from sensorimotor cortex of three macaques. Furthermore, we validated surface electrical stimulation in one of our animals. Our bench-side testing showed up to 90% reduction of photo-induced artifacts with our MMAD. The transparency of our MMAD was confirmed both via bench-side testing (87% transmittance) and via in vivo imaging of blood flow from the underlying microvasculature using optical coherence tomography angiography. Significance. Our results indicate that our MMAD supports large-scale electrocorticography, large-scale cortical imaging, and, by extension, large-scale optical stimulation. The MMAD prepares the way for both acute and long-term chronic experiments with complimentary data collection and stimulation modalities. When paired with the complex behaviors and cognitive abilities of NHPs, these assets prepare us to study large-scale neural phenomena including neural disease, damage, and recovery., (© 2021 IOP Publishing Ltd.)

Published
2021
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31. Experimental cortical stroke induces aberrant increase of sharp-wave-associated ripples in the hippocampus and disrupts cortico-hippocampal communication.

Author

He JW, Rabiller G, Nishijima Y, Akamatsu Y, Khateeb K, Yazdan-Shahmorad A, and Liu J

Subjects
Animals, Carotid Stenosis physiopathology, Cognitive Dysfunction physiopathology, Delta Rhythm, Electroencephalography, Gamma Rhythm, Infarction, Middle Cerebral Artery physiopathology, Memory Consolidation, Rats, Reperfusion Injury physiopathology, Theta Rhythm, Cerebral Cortex physiopathology, Hippocampus physiopathology, Ischemic Stroke physiopathology, Nerve Net physiopathology
Abstract

The functional consequences of ischemic stroke in the remote brain regions are not well characterized. The current study sought to determine changes in hippocampal oscillatory activity that may underlie the cognitive impairment observed following distal middle cerebral artery occlusion (dMCAO) without causing hippocampal structural damage. Local field potentials were recorded from the dorsal hippocampus and cortex in urethane-anesthetized rats with multichannel silicon probes during dMCAO and reperfusion, or mild ischemia induced by bilateral common carotid artery occlusion (CCAO). Bilateral change of brain state was evidenced by reduced theta/delta amplitude ratio and shortened high theta duration following acute dMCAO but not CCAO. An aberrant increase in the occurrence of sharp-wave-associated ripples (150-250 Hz), crucial for memory consolidation, was only detected after dMCAO reperfusion, coinciding with an increased occurrence of high-frequency discharges (250-450 Hz). dMCAO also significantly affected the modulation of gamma amplitude in the cortex coupled to hippocampal theta phase, although both hippocampal theta and gamma power were temporarily decreased during dMCAO. Our results suggest that MCAO may disrupt the balance between excitatory and inhibitory circuits in the hippocampus and alter the function of cortico-hippocampal network, providing a novel insight in how cortical stroke affects function in remote brain regions.

Published
2020
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32. Cortical Stimulation Induces Network-Wide Coherence Change In Non-Human Primate Somatosensory Cortex .

Author

Bloch JA, Khateeb K, Silversmith DB, O'Doherty JE, Sabes PN, and Yazdan-Shahmorad A

Subjects
Animals, Brain Mapping, Neuronal Plasticity, Primates, Somatosensory Cortex
Abstract

Stimulation of the cortex can modulate the connectivity between brain regions. Although targeted neuroplasticity has been demonstrated in-vitro, in-vivo models have been inconsistent in their response to stimulation. In this paper, we tested various stimulation protocols to characterize the effect of stimulation on coherence in the non-human primate cortex in-vivo. We found that the stimulation latency, the state of the cortex during stimulation, and the stimulation site all affected the modulation of cortical coherence. We further investigated features of a resting-state network that could predict how a connection is likely to change with stimulation.

Published
2019
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33. A Practical Method for Creating Targeted Focal Ischemic Stroke in the Cortex of Nonhuman Primates .

Author

Khateeb K, Yao Z, Kharazia VN, Burunova EP, Song S, Wang R, and Yazdan-Shahmorad A

Subjects
Animals, Humans, Macaca mulatta, Male, Reproducibility of Results, Thrombosis, Tomography, Optical Coherence, Brain Ischemia, Disease Models, Animal, Stroke
Abstract

Ischemic stroke is a major cause of disability among adults worldwide. Despite its prevalence, few effective treatment options exist to alleviate sensory and motor dysfunctions that result from stroke. In the past, rodent models of stroke have been the primary experimental models used to develop stroke therapies. However, positive results in these studies have failed to replicate in human clinical trials, highlighting the importance of nonhuman primate (NHP) models as a preclinical step. Although there are a few NHP models of stroke, the extent of tissue damage is highly variable and dependent on surgical skill. In this study, we employed the photothrombotic stroke model in NHPs to generate controlled, reproducible ischemic lesions. Originally developed in rodents, the photothrombotic technique consists of intravenous injection of a photosensitive dye such as Rose Bengal followed by illumination of an area of interest to induce endothelial damage resulting in the formation of thrombi in the illuminated vasculature. We developed a quantitative model to predict the extent of tissue damage based on the light scattering profile of light in the cortex of NHPs. We then employed this technique in the sensorimotor cortex of two adult male Rhesus Macaques. In vivo optical coherence tomography imaging of the cortical microvasculature and subsequent histology confirmed the formation of focal cortical infarcts and demonstrated its reproducibility and ability to control the sizes and locations of light-induced ischemic lesions in the cortex of NHPs. This model has the potential to enhance our understanding of perilesional neural dynamics and can be used to develop reliable neurorehabilitative therapeutic strategies to treat stroke.

Published
2019
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34. Convection Enhanced Delivery of Optogenetic Adeno-associated Viral Vector to the Cortex of Rhesus Macaque Under Guidance of Online MRI Images.

Author

Khateeb K, Griggs DJ, Sabes PN, and Yazdan-Shahmorad A

Subjects
Animals, Education, Distance, Humans, Internet, Macaca mulatta, Cerebral Cortex physiopathology, Convection, Genetic Vectors genetics, Magnetic Resonance Imaging methods, Optogenetics methods
Abstract

In non-human primate (NHP) optogenetics, infecting large cortical areas with viral vectors is often a difficult and time-consuming task. Here, we demonstrate the use of magnetic resonance (MR)-guided convection enhanced delivery (CED) of optogenetic viral vectors into primary somatosensory (S1) and motor (M1) cortices of macaques to obtain efficient, widespread cortical expression of light-sensitive ion channels. Adeno-associated viral (AAV) vectors encoding the red-shifted opsin C1V1 fused to yellow fluorescent protein (EYFP) were injected into the cortex of rhesus macaques under MR-guided CED. Three months post-infusion, epifluorescent imaging confirmed large regions of optogenetic expression (>130 mm 2 ) in M1 and S1 in two macaques. Furthermore, we were able to record reliable light-evoked electrophysiology responses from the expressing areas using micro-electrocorticographic arrays. Later histological analysis and immunostaining against the reporter revealed widespread and dense optogenetic expression in M1 and S1 corresponding to the distribution indicated by epifluorescent imaging. This technique enables us to obtain expression across large areas of the cortex within a shorter period of time with minimal damage compared to the traditional techniques and can be an optimal approach for optogenetic viral delivery in large animals such as NHPs. This approach demonstrates great potential for network-level manipulation of neural circuits with cell-type specificity in animal models evolutionarily close to humans.

Published
2019
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35. Endogenous Tagging Reveals Differential Regulation of Ca 2+ Channels at Single Active Zones during Presynaptic Homeostatic Potentiation and Depression.

Author

Gratz SJ, Goel P, Bruckner JJ, Hernandez RX, Khateeb K, Macleod GT, Dickman D, and O'Connor-Giles KM

Subjects
Animals, Drosophila physiology, Homeostasis, Male, Calcium Channels physiology, Drosophila Proteins physiology, Neuronal Plasticity, Presynaptic Terminals physiology, Synaptic Potentials
Abstract

Neurons communicate through Ca 2+ -dependent neurotransmitter release at presynaptic active zones (AZs). Neurotransmitter release properties play a key role in defining information flow in circuits and are tuned during multiple forms of plasticity. Despite their central role in determining neurotransmitter release properties, little is known about how Ca 2+ channel levels are modulated to calibrate synaptic function. We used CRISPR to tag the Drosophila Ca V 2 Ca 2+ channel Cacophony (Cac) and, in males in which all Cac channels are tagged, investigated the regulation of endogenous Ca 2+ channels during homeostatic plasticity. We found that heterogeneously distributed Cac is highly predictive of neurotransmitter release probability at individual AZs and differentially regulated during opposing forms of presynaptic homeostatic plasticity. Specifically, AZ Cac levels are increased during chronic and acute presynaptic homeostatic potentiation (PHP), and live imaging during acute expression of PHP reveals proportional Ca 2+ channel accumulation across heterogeneous AZs. In contrast, endogenous Cac levels do not change during presynaptic homeostatic depression (PHD), implying that the reported reduction in Ca 2+ influx during PHD is achieved through functional adaptions to pre-existing Ca 2+ channels. Thus, distinct mechanisms bidirectionally modulate presynaptic Ca 2+ levels to maintain stable synaptic strength in response to diverse challenges, with Ca 2+ channel abundance providing a rapidly tunable substrate for potentiating neurotransmitter release over both acute and chronic timescales. SIGNIFICANCE STATEMENT Presynaptic Ca 2+ dynamics play an important role in establishing neurotransmitter release properties. Presynaptic Ca 2+ influx is modulated during multiple forms of homeostatic plasticity at Drosophila neuromuscular junctions to stabilize synaptic communication. However, it remains unclear how this dynamic regulation is achieved. We used CRISPR gene editing to endogenously tag the sole Drosophila Ca 2+ channel responsible for synchronized neurotransmitter release, and found that channel abundance is regulated during homeostatic potentiation, but not homeostatic depression. Through live imaging experiments during the adaptation to acute homeostatic challenge, we visualize the accumulation of endogenous Ca 2+ channels at individual active zones within 10 min. We propose that differential regulation of Ca 2+ channels confers broad capacity for tuning neurotransmitter release properties to maintain neural communication., (Copyright © 2019 Gratz et al.)

Published
2019
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36. Heterogeneity and scatter effects on Ir-192 brachytherapy dose distribution.

Author

Osman AF, Maalej N, Ul-Rahman K, and Rahman WA

Subjects
Air, Anisotropy, Biophysical Phenomena, Body Size, Brachytherapy statistics & numerical data, Computer Simulation, Film Dosimetry statistics & numerical data, Humans, Monte Carlo Method, Phantoms, Imaging, Radiometry statistics & numerical data, Radiotherapy Dosage, Scattering, Radiation, Brachytherapy methods, Iridium Radioisotopes therapeutic use
Abstract

We studied the effects of the presence of an air cavity and scatter due to patient size on dose distribution near an Iriduim-192 brachytherapy source (Ir-192). The source was modeled using Monte Carlo (MC) code MCNP5. The Radial dose, g L (r), and the anisotropy function, F(r,θ) specified by the AAPM TG-43 have been determined and compared with the consensus data (AAPM report No. 229). We compared our MC results to the measured dose distribution using an EBT3 Gafchromic® film measurement. The dose was determined in the presence of an air cavity of 3, 5, and 7mm diameters located at 2mm distance from Ir-192. The dose was also determined for Ir-192 centered in 30×30×30cm 3 and 80×80×80cm 3 water phantoms. The MC results of g L (r) and F(r,θ) agreed with the consensus data to within 2% and 3%, respectively. The MC and the measured dose distributions agreed well with a maximum difference of 8.2% at the periphery of the film. The dose at 10cm from the Ir-192 source with a full scattering medium (80×80×80cm 3 ) was 7% higher compared to the dose in (30×30×30cm 3 ) water phantom. The dose to water in the presence of a 3, 5, and 7mm diameter air cavity increased by an average of 3%, 6%, and 9%, respectively, compared to the dose with no air cavity. Ignoring scatter effects and the heterogeneity correction in the presence of an air cavity can lead to significant errors in dose delivered to patients., (Copyright © 2016 Associazione Italiana di Fisica Medica. Published by Elsevier Ltd. All rights reserved.)

Published
2016
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37. Chlorine signal attenuation in concrete.

Author

Naqvi AA, Maslehuddin M, Ur-Rehman K, and Al-Amoudi OSB

Abstract

The intensity of prompt gamma-ray was measured at various depths from chlorine-contaminated silica fume (SF) concrete slab concrete specimens using portable neutron generator-based prompt gamma-ray setup. The intensity of 6.11MeV chloride gamma-rays was measured from the chloride contaminated slab at distance of 15.25, 20.25, 25.25, 30.25 and 35.25cm from neutron target in a SF cement concrete slab specimens. Due to attenuation of thermal neutron flux and emitted gamma-ray intensity in SF cement concrete at various depths, the measured intensity of chlorine gamma-rays decreases non-linearly with increasing depth in concrete. A good agreement was noted between the experimental results and the results of Monte Carlo simulation. This study has provided useful experimental data for evaluating the chloride contamination in the SF concrete utilizing gamma-ray attenuation method., (Copyright © 2015 Elsevier Ltd. All rights reserved.)

Published
2015
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38. Heart failure remote monitoring: evidence from the retrospective evaluation of a real-world remote monitoring program.

Author

Agboola S, Jethwani K, Khateeb K, Moore S, and Kvedar J

Subjects
Aged, Female, Heart Failure mortality, Hospitalization statistics & numerical data, Humans, Male, Middle Aged, Organophosphorus Compounds, Quinazolinones, Retrospective Studies, Treatment Outcome, Heart Failure therapy, Monitoring, Ambulatory methods, Remote Consultation
Abstract

Background: Given the magnitude of increasing heart failure mortality, multidisciplinary approaches, in the form of disease management programs and other integrative models of care, are recommended to optimize treatment outcomes. Remote monitoring, either as structured telephone support or telemonitoring or a combination of both, is fast becoming an integral part of many disease management programs. However, studies reporting on the evaluation of real-world heart failure remote monitoring programs are scarce., Objective: This study aims to evaluate the effect of a heart failure telemonitoring program, Connected Cardiac Care Program (CCCP), on hospitalization and mortality in a retrospective database review of medical records of patients with heart failure receiving care at the Massachusetts General Hospital., Methods: Patients enrolled in the CCCP heart failure monitoring program at the Massachusetts General Hospital were matched 1:1 with usual care patients. Control patients received care from similar clinical settings as CCCP patients and were identified from a large clinical data registry. The primary endpoint was all-cause mortality and hospitalizations assessed during the 4-month program duration. Secondary outcomes included hospitalization and mortality rates (obtained by following up on patients over an additional 8 months after program completion for a total duration of 1 year), risk for multiple hospitalizations and length of stay. The Cox proportional hazard model, stratified on the matched pairs, was used to assess primary outcomes., Results: A total of 348 patients were included in the time-to-event analyses. The baseline rates of hospitalizations prior to program enrollment did not differ significantly by group. Compared with controls, hospitalization rates decreased within the first 30 days of program enrollment: hazard ratio (HR)=0.52, 95% CI 0.31-0.86, P=.01). The differential effect on hospitalization rates remained consistent until the end of the 4-month program (HR=0.74, 95% CI 0.54-1.02, P=.06). The program was also associated with lower mortality rates at the end of the 4-month program: relative risk (RR)=0.33, 95% 0.11-0.97, P=.04). Additional 8-months follow-up following program completion did not show residual beneficial effects of the CCCP program on mortality (HR=0.64, 95% 0.34-1.21, P=.17) or hospitalizations (HR=1.12, 95% 0.90-1.41, P=.31)., Conclusions: CCCP was associated with significantly lower hospitalization rates up to 90 days and significantly lower mortality rates over 120 days of the program. However, these effects did not persist beyond the 120-day program duration.

Published
2015
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39. Maternal Diet during Pregnancy Induces Gene Expression and DNA Methylation Changes in Fetal Tissues in Sheep.

Author

Lan X, Cretney EC, Kropp J, Khateeb K, Berg MA, Peñagaricano F, Magness R, Radunz AE, and Khatib H

Abstract

Studies in rats and mice have established that maternal nutrition induces epigenetic modifications, sometimes permanently, that alter gene expression in the fetus, which in turn leads to phenotypic changes. However, limited data is available on the influence of maternal diet on epigenetic modifications and gene expression in sheep. Therefore, the objectives of this study were to investigate the impact of different maternal dietary energy sources on the expression of imprinted genes in fetuses in sheep. Ewes were naturally bred to a single sire and from days 67 ± 3 of gestation until necropsy (days 130 ± 1), they were fed one of three diets of alfalfa haylage (HY; fiber), corn (CN; starch), or dried corn distiller's grains (DG; fiber plus protein plus fat). A total of 26 fetuses were removed from the dams and longissimus dorsi, semitendinosus, perirenal adipose depot, and subcutaneous adipose depot tissues were collected for expression and DNA methylation analyses. Expression analysis of nine imprinted genes and three DNA methyltransferase (DNMTs) genes showed significant effects of the different maternal diets on the expression of these genes. The methylation levels of CpG islands of both IGF2R and H19 were higher in HY and DG than CN fetuses in both males and females. This result is consistent with the low amino acid content of the CN diet, a source of methyl group donors, compared to HY and DG diets. Thus, results of this study provide evidence of association between maternal nutrition during pregnancy and transcriptomic and epigenomic alterations of imprinted genes and DNMTs in the fetal tissues.

Published
2013
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40. Genes of the transforming growth factor-beta signalling pathway are associated with pre-implantation embryonic development in cattle.

Author

Li G, Khateeb K, Schaeffer E, Zhang B, and Khatib H

Subjects
Animals, Female, Fertility genetics, Gene Expression Regulation, Developmental, Genetic Markers, Pregnancy, Real-Time Polymerase Chain Reaction, Blastocyst physiology, Cattle embryology, Embryonic Development genetics, Signal Transduction genetics, Transforming Growth Factor beta genetics
Abstract

One of the main factors affecting cattle fertility is pre-implantation development of the bovine embryo, which is a complex process regulated by various signal-transduction pathways. The transforming growth factor-β (TGF-β) signalling system, which is responsible for many biological processes including cell proliferation, differentiation and apoptosis, also is involved in embryo development. We hypothesized that altered expression of TGF-β genes in pre-implantation bovine embryos is associated with morphological abnormalities of these embryos. To test this hypothesis, we produced embryos in vitro and classified them at the blastocyst stage as either normally developed blastocysts or degenerates (growth-arrested embryos). The expression patterns of 25 genes from the TGF-β pathway were assessed using quantitative real time PCR. Ten genes showed differential expression between the two embryo groups, four genes displayed similar expressional profiles, and 11 genes had no detectable expression. An altered expression profile was statistically significant for 10 of the 14 expressed genes, and all were up-regulated in degenerate embryos vs. blastocysts. Furthermore, genomic association analysis of the cows from which embryos were produced revealed a significant association of ID3 and BMP4 polymorphisms--two of the most significant differentially expressed genes--with fertilization rate and blastocyst rate, respectively. Taken together, we conclude that TGF-β pathway genes, especially BMP4 and ID3 play a vital function in the regulation of pre-implantation embryo development at both embryo and maternal levels. Hence, these genes may be suitable as genetic markers for embryo development and fertility in cattle.

Published
2012
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41. Dietary glutamine supplementation prevents mucosal injury and modulates intestinal epithelial restitution following ischemia-reperfusion injury in the rat.

Author

Sukhotnik I, Khateeb K, Mogilner JG, Helou H, Lurie M, Coran AG, and Shiloni E

Subjects
Animals, Apoptosis drug effects, Cell Proliferation drug effects, DNA metabolism, Enterocytes drug effects, Glutamine pharmacology, Intestinal Mucosa metabolism, Intestinal Mucosa pathology, Male, Proteins metabolism, Rats, Rats, Sprague-Dawley, Reperfusion Injury pathology, Glutamine therapeutic use, Intestinal Mucosa drug effects, Regeneration drug effects, Reperfusion Injury prevention & control
Abstract

The aim of the present study was to evaluate the preventive effect of a 2-day oral glutamine supplementation against intestinal ischemia-reperfusion (IR) injury in a rat. Male Sprague-Dawley rats were divided into four experimental groups: sham rats underwent laparotomy, sham-GLU rats underwent laparotomy and were treaded with enteral glutamine (GLU) given in drinking water (2%) 48 hr before and following operation, IR rats underwent occlusion of both the superior mesenteric artery and the portal vein for 30 min followed by 24 hr of reperfusion, and IR-GLU rats were treated with enteral glutamine 48 hr before and following IR. Intestinal mucosal damage (Park's injury score), mucosal structural changes, enterocyte proliferation, and enterocyte apoptosis were determined 24 hr following IR. Sham-GLU rats demonstrated a lower rate of cell apoptosis in jejunum and ileum compared to sham animals. IR-GLU animals demonstrated a greater jejunal and ileal bowel and mucosal weight, mucosal DNA, villous height and crypt depth, and enterocyte proliferation index in ileum and a lower injury score grade in jejunum compared to IR-nontreated rats. In conclusion, pretreatment with oral glutamine prevents mucosal injury and improves intestinal recovery following IR injury in the rat.

Published
2007
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42. The effect of leptin on intestinal recovery following ischemia-reperfusion injury in a rat.

Author

Sukhotnik I, Helou H, Lurie M, Khateeb K, Bejar J, Coran AG, Mogilner JG, and Shiloni E

Subjects
Analysis of Variance, Animals, Apoptosis drug effects, Cell Proliferation drug effects, Disease Models, Animal, Enterocytes drug effects, Intestinal Diseases etiology, Intestinal Mucosa drug effects, Intestinal Mucosa ultrastructure, Intestine, Small blood supply, Male, Random Allocation, Rats, Rats, Sprague-Dawley, Recovery of Function drug effects, Reperfusion Injury etiology, Intestinal Diseases prevention & control, Intestine, Small drug effects, Leptin pharmacology, Reperfusion Injury prevention & control
Abstract

Recent evidence suggests that the adipose tissue derived cytokine leptin (LEP) is involved in the modulation of growth and differentiation of normal small intestine. The purpose of the present study was to examine the effect of leptin on enterocyte turnover and intestinal recovery after ischemia-reperfusion (IR) injury in a rat. Male Sprague-Dawley rats were divided into three experimental groups: (1) sham rats underwent laparotomy, (2) IR-rats underwent occlusion of both superior mesenteric artery and portal vein for 30 min followed by 24 h of reperfusion, and (3) IR-LEP rats underwent IR and were treated with leptin given subcutaneously at a dose of 50 microg/kg once a day for 48 h before and 24 h following IR. Intestinal structural changes, enterocyte proliferation and enterocyte apoptosis were determined 24 h following IR. A non-parametric Kruskal-Wallis ANOVA test was used for statistical analysis with P < 0.05 considered statistically significant. Treatment with leptin resulted in a significant increase in bowel weight in ileum, mucosal weight in jejunum and ileum, mucosal DNA content in ileum, mucosal protein content in jejunum and ileum, villus height in jejunum and ileum, and crypt depth in jejunum compared to IR-animals. IR-LEP rats also had a significantly lower intestinal injury score as well as lower apoptotic index and higher cell proliferation index in jejunum and ileum compared to the IR-animals. In conclusion, pre-treatment with leptin prevents gut mucosal damage and improves intestinal rehabilitation following intestinal IR in a rat.

Published
2007
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43. Sandostatin impairs postresection intestinal adaptation in a rat model of short bowel syndrome.

Author

Sukhotnik I, Khateeb K, Krausz MM, Sabo E, Siplovich L, Coran AG, and Shiloni E

Subjects
Adaptation, Physiological drug effects, Animals, Apoptosis, Cell Division drug effects, Male, Rats, Rats, Sprague-Dawley, Gastrointestinal Agents pharmacology, Intestines physiopathology, Octreotide pharmacology, Short Bowel Syndrome physiopathology
Abstract

Because of its antisecretory properties, sandostatin has been advocated for the treatment of patients with short bowel syndrome (SBS). This study was conducted to determine the effect of sandostatin on structural intestinal adaptation, cell proliferation and apoptosis in a rat model of SBS. Sprague-Dawley rats were divided into three experimental groups: Sham rats underwent bowel transection, SBS rats underwent 75% small bowel resection, and SBS-sandostatin rats underwent bowel resection and were treated with sandostatin (SBS-SND). Parameters of intestinal adaptation, enterocyte proliferation, and enterocyte apoptosis were determined on day 14 following operation. We have demonstrated that SBS-SND animals demonstrated lower (vs SBS rats) duodenal and jejunal bowel weights, jejunal and ileal mucosal weight, jejunal and ileal mucosal DNA and protein, jejunal and ileal villus height, cell proliferation index in the ileum, and enterocyte apoptosis in jejunum and ileum. We conclude that in a rat model of SBS sandostatin decreases cell proliferation and inhibits structural intestinal adaptation.

Published
2002
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