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Petrakis, Ioannis; Vrachassotakis, N.; Vassilakis, Sofocles J.; Sciacca, Vincenzo; Chalkiadakis, George

doi:10.1023/a:1005577125356

Cited by 10 publications

(1 citation statement)

References 36 publications

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“…It is well documented that the effects of nitrergic inputs are mediated via a vagovagal reflex and NANC pathways[ 126 ]. This was strongly supported by several findings, which demonstrated that vagotomy led to significantly impaired accommodation and gastric emptying[ 127 , 128 ]. Vagotomy is used as a classic model to study the processes that are involved in delayed gastric emptying.…”

Section: Nitrergic Inhibitory Pathways: Modulation Of Gastric Emptyinsupporting

confidence: 68%

Implication of neurohormonal-coupled mechanisms of gastric emptying and pancreatic secretory function in diabetic gastroparesis

Mussa

Sood

Verberne

2018

WJG

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Recently, diabetic gastroparesis (DGP) has received much attention as its prevalence is increasing in a dramatic fashion and management of patients with DGP represents a challenge in the clinical practice due to the limited therapeutic options. DGP highlights an interrelationship between the gastric emptying and pancreatic secretory function that regulate a wide range of digestive and metabolic functions, respectively. It well documented that both gastric emptying and pancreatic secretion are under delicate control by multiple neurohormonal mechanisms including extrinsic parasympathetic pathways and gastrointestinal (GI) hormones. Interestingly, the latter released in response to various determinants that related to the rate and quality of gastric emptying. Others and we have provided strong evidence that the central autonomic nuclei send a dual output (excitatory and inhibitory) to the stomach and the pancreas in response to a variety of hormonal signals from the abdominal viscera. Most of these hormones released upon gastric emptying to provide feedback, and control this process and simultaneously regulate pancreatic secretion and postprandial glycemia. These findings emphasize an important link between gastric emptying and pancreatic secretion and its role in maintaining homeostatic processes within the GI tract. The present review deals with the neurohormonal-coupled mechanisms of gastric emptying and pancreatic secretory function that implicated in DGP and this provides new insights in our understanding of the pathophysiology of DGP. This also enhances the process of identifying potential therapeutic targets to treat DGP and limit the complications of current management practices.

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Section: Nitrergic Inhibitory Pathways: Modulation Of Gastric Emptyinsupporting

confidence: 68%

Implication of neurohormonal-coupled mechanisms of gastric emptying and pancreatic secretory function in diabetic gastroparesis

Mussa

Sood

Verberne

2018

WJG

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Hyperglycemia attenuates erythromycin-induced acceleration of solid-phase gastric emptying in healthy subjects

et al. 2002

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On the Performances of Cu_xO-TiO₂ (x = 1, 2) Nanomaterials As Innovative Anodes for Thin Film Lithium Batteries

Barreca

Carraro

Gasparotto

et al. 2012

ACS Appl. Mater. Interfaces

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CuxO-TiO2 (x = 1, 2) nanomaterials are synthesized on polycrystalline Ti substrates by a convenient chemical vapor deposition (CVD) approach, based on the initial growth of a CuxO matrix (at 400 and 550 °C for x = 1 and 2, respectively) and the subsequent overdispersion of TiO2 at 400 °C. All CVD processes are carried out in an oxygen atmosphere saturated with water vapor. The obtained systems are investigated by means of glancing incidence X-ray diffraction (GIXRD), X-ray photoelectron spectroscopy (XPS), secondary ion mass spectrometry (SIMS), field emission-scanning electron microscopy (FE-SEM), atomic force microscopy (AFM), and electrochemical experiments. Galvanostatic charge/discharge measurements indicate that Cu2O-TiO2 nanomaterials exhibit very attractive high-rate capabilities (∼400 mA h g(-1) at 1 C; ∼325 mA h g(-1) at 2 C) and good stability after 50 operating cycles, with a retention of 80% of the initial capacity. This phenomenon is mainly due to the presence of TiO2 acting as a buffer material, i.e., minimizing volume changes occurring in the electrochemical conversion. In a different way, CuO-TiO2 systems exhibit worse electrochemical performances as a consequence of their porous morphology and higher thickness. In both cases, the obtained values are among the best ever reported for CuxO-based systems, candidating the present nanomaterials as extremely promising anodes for eventual applications in thin film lithium batteries.

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Untitled

Cited by 10 publications

References 36 publications

Implication of neurohormonal-coupled mechanisms of gastric emptying and pancreatic secretory function in diabetic gastroparesis

Implication of neurohormonal-coupled mechanisms of gastric emptying and pancreatic secretory function in diabetic gastroparesis

Hyperglycemia attenuates erythromycin-induced acceleration of solid-phase gastric emptying in healthy subjects

On the Performances of Cu_xO-TiO₂ (x = 1, 2) Nanomaterials As Innovative Anodes for Thin Film Lithium Batteries

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Untitled

Cited by 10 publications

References 36 publications

Implication of neurohormonal-coupled mechanisms of gastric emptying and pancreatic secretory function in diabetic gastroparesis

Implication of neurohormonal-coupled mechanisms of gastric emptying and pancreatic secretory function in diabetic gastroparesis

Hyperglycemia attenuates erythromycin-induced acceleration of solid-phase gastric emptying in healthy subjects

On the Performances of CuxO-TiO2 (x = 1, 2) Nanomaterials As Innovative Anodes for Thin Film Lithium Batteries

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On the Performances of Cu_xO-TiO₂ (x = 1, 2) Nanomaterials As Innovative Anodes for Thin Film Lithium Batteries