Abstract
Coordinated contractions and motility patterns unique to each gastrointestinal organ facilitate the digestive process. These motor activities are coordinated by bioelectrical events, sensory and motor nerves, and hormones. The motility problems in the gastrointestinal tract known as functional gastrointestinal disorders (FGIDs) are generally caused by impaired neuromuscular activity and are highly prevalent. Their diagnosis is challenging as symptoms are often vague and difficult to localize. Therefore, the underlying pathophysiological factors remain unknown. However, there is an increasing level of research and clinical evidence suggesting a link between FGIDs and altered bioelectrical activity. In addition, electroceuticals (bioelectrical therapies to treat diseases) have recently gained significant interest. This paper gives an overview of bioelectrical signatures of gastrointestinal organs with normal and/or impaired motility patterns and bioelectrical therapies that have been developed for treating FGIDs. The existing research evidence suggests that bioelectrical activities could potentially help to identify the diverse etiologies of FGIDs and overcome the drawbacks of the current clinically adapted methods. Moreover, electroceuticals could potentially be effective in the treatment of FGIDs and replace the limited existing conventional therapies which often attempt to treat the symptoms rather than the underlying condition.
Highlights
The gastrointestinal (GI) tract is responsible for the digestion and nutrient absorption of food we ingest
The results have shown that high-resolution surface electromyography (sEMG) recordings can provide detailed spatial and temporal properties of the muscle electrical activity that can help identify the muscle contractions closely related to swallowing function [26]
A study performed on patients diagnosed with irritable bowel syndrome (IBS) reported that the low-frequency band of slow waves (SWs) was recorded for a greater proportion of time in both the rectum and rectosigmoid compared to normal subjects [128]
Summary
The gastrointestinal (GI) tract is responsible for the digestion and nutrient absorption of food we ingest. Functional GI disorders (FGIDs) are motility problems within the GI organs which do not stem neuromuscular activity where the underlying pathophysiological factors are largely unknown [5]. Despite their high prevalence rate and impact on the health system, FGIDs specific to each GI organ together with current clinical functional tests. Conventional therapies primarily target symptoms, as the etiologies of many FGIDs have not prevalent FGIDs specific to each GI organ together with current clinical functional tests. These cognitive behavioral-based interventions are hypothesized to target Another therapeutic approach that has garnered significant interest in the clinical field is the use the underlying biopsychological factors of FGIDs and reduce symptoms via autonomic regulation of of electroceuticals. The review covers bioelectrical therapies for FGIDs (see Table 2)
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