Joanna Pakiraih scite author profile

Joanna Pakiraih

3Publications

12Citation Statements Received

30Citation Statements Given

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Affiliations

Advanced Neural Dynamics (United States), Southern Illinois University School of Medicine, Nationwide Children's Hospital

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Esophageal reflexes modulate frontoparietal response in neonates: Novel application of concurrent NIRS and provocative esophageal manometry

Jadcherla

Pakiraih

Hasenstab

et al. 2014

American Journal of Physiology-Gastrointestinal and Liver Physi

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Central and peripheral neural regulation of swallowing and aerodigestive reflexes is unclear in human neonates. Functional near infrared spectroscopy (NIRS) is a noninvasive method to measure changes in oxyhemoglobin (HbO) and deoxyhemoglobin (HbD). Pharyngoesophageal manometry permits evaluation of aerodigestive reflexes. Modalities were combined to investigate feasibility and to test neonatal frontoparietal cortical changes during pharyngoesophageal (visceral) stimulation and/or swallowing. Ten neonates (45.6 ± 3.0 wk postmenstrual age, 4.1 ± 0.5 kg) underwent novel pharyngoesophageal manometry concurrent with NIRS. To examine esophagus-brain interactions, we analyzed cortical hemodynamic response (HDR) latency and durations during aerodigestive provocation and esophageal reflexes. Data are presented as means ± SE or percent. HDR rates were 8.84 times more likely with basal spontaneous deglutition compared with sham stimuli (P = 0.004). Of 182 visceral stimuli, 95% were analyzable for esophageal responses, 38% for HDR, and 36% for both. Of analyzable HDR (n = 70): 1) HbO concentration (μmol/l) baseline 1.5 ± 0.7 vs. 3.7 ± 0.7 poststimulus was significant (P = 0.02), 2) HbD concentration (μmol/l) between baseline 0.1 ± 0.4 vs. poststimulus -0.5 ± 0.4 was not significant (P = 0.73), and 3) hemispheric lateralization was 21% left only, 29% right only, and 50% bilateral. During concurrent esophageal and NIRS responses (n = 66): 1) peristaltic reflexes were present in 74% and HDR in 61% and 2) HDR was 4.75 times more likely with deglutition reflex vs. secondary peristaltic reflex (P = 0.016). Concurrent NIRS with visceral stimulation is feasible in neonates, and frontoparietal cortical activation is recognized. Deglutition contrasting with secondary peristalsis is related to cortical activation, thus implicating higher hierarchical aerodigestive protective functional neural networks.

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A system for the determination of planar force vectors from spontaneously active chicken embryos

Sharp

Cain

Pakiraih

et al. 2014

Journal of Neurophysiology

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Sharp AA, Cain BW, Pakiraih J, Williams JL. A system for the determination of planar force vectors from spontaneously active chicken embryos. J Neurophysiol 112: 2349 -2356. First published August 20, 2014 doi:10.1152/jn.00423.2014.-Generally, a combination of kinematic, electromyographic (EMG), and force measurements are used to understand how an organism generates and controls movement. The chicken embryo has been a very useful model system for understanding the early stages of embryonic motility in vertebrates. Unfortunately, the size and delicate nature of embryos makes studies of motility during embryogenesis very challenging. Both kinematic and EMG recordings have been achieved in embryonic chickens, but two-dimensional force vector recordings have not. Here, we describe a dual-axis system for measuring force generated by the leg of embryonic chickens. The system employs two strain gauges to measure planar forces oriented with the plane of motion of the leg. This system responds to forces according to the principles of Pythagorean geometry, which allows a simple computational program to determine the force vector (magnitude and direction) generated during spontaneous motor activity. The system is able to determine force vectors for forces Ͼ0.5 mN accurately and allows for simultaneous kinematic and EMG recordings. This sensitivity is sufficient for force vector measurements encompassing most embryonic leg movements in midstage chicken embryos allowing for a more complete understanding of embryonic motility. Variations on this system are discussed to enable nonideal or alternative sensor arrangements and to allow for translation of this approach to other delicate model systems. force vector; strain gauge; 2D; chicken embryo; kinematics RESEARCH ON THE CHICKEN EMBRYO has provided a wealth of information on the development of motor circuitry (Bekoff et al. 1975;Kastanenka and Landmesser 2013;O'Donovan and Landmesser 1987;O'Donovan et al. 2008) and behavior (Bradley 2001;Bradley et al. 2005;Sharp et al. 1999) that is especially relevant to limbed terrestrial animals. The chicken has been particularly important due to the capacity for direct observation and manipulation of the embryo throughout embryogenesis, which is arguably more challenging with mammalian fetuses (e.g., Brumley and Robinson 2010). Motor studies on chicken embryos present technical challenges that are unique compared with juvenile and adult limbed animals such as relatively small size and an aquatic environment. Nonetheless, quantitative studies of leg movement (Bradley 2001;Bradley et al. 2005;Ryu and Bradley 2009;

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Su2117 Novel Esophago-Cortical Responses in Unsedated Human Neonates Discovered Upon Concurrent Provocative Manometry and Functional Near-Infrared Spectroscopy (Fnirs)

Jadcherla¹,

Pakiraih²,

Hasenstab³

et al. 2013

Gastroenterology

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Joanna Pakiraih

Esophageal reflexes modulate frontoparietal response in neonates: Novel application of concurrent NIRS and provocative esophageal manometry

A system for the determination of planar force vectors from spontaneously active chicken embryos

Su2117 Novel Esophago-Cortical Responses in Unsedated Human Neonates Discovered Upon Concurrent Provocative Manometry and Functional Near-Infrared Spectroscopy (Fnirs)

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