Description

The term chronic defecation disorders encompasses a wide range of conditions in the current medical literature. Among them, idiopathic chronic constipation represents the central subgroup of patients, often suffering from therapy-refractory symptoms. However, other causes of chronic defecation disorders must also be considered, such as Hirschsprung's disease, cystic fibrosis, congenital malformations and their postoperative complications, or neurogenic bladder and rectal emptying disorders. Additionally, chronic fissures, congenital anal stenosis, and previous abdominal surgeries can contribute to chronic defecation disorders.

In most cases, the underlying cause is not a single, well-controlled symptom but rather a heterogeneous symptom complex. Chronic constipation, for instance, is defined based on various symptoms as per the Rome IV criteria, requiring a duration of at least three months for diagnosis. In children, this condition frequently presents as a combination of defecation difficulties, severe abdominal pain, food refusal, encopresis, enuresis, and reduced activity levels, often necessitating a multimodal and sometimes highly burdensome therapy. Patients typically experience significant distress and markedly reduced quality of life.

The prevalence of chronic constipation in children and adolescents is high, with reported rates reaching up to 34%. However, in more than 90% of cases, no organic cause can be identified. Conservative treatment approaches are often inadequate or fail to prevent long-term chronicity. Despite this, defecation disorders in children and adolescents are frequently underestimated and sometimes managed within psychiatric treatment settings, which may lead to long-term physical and psychological developmental impairments.

Diagnostic Challenges

Following the exclusion of manifest organic causes, the differentiation between "slow transit constipation" (STC) and "outlet obstruction" (OO) remains a major diagnostic challenge in children. Further complicating matters, many pediatric patients exhibit mixed forms of both conditions.

Slow transit constipation (STC) is characterized by a generalized delay in bowel transit, with predominantly genetic but also other organic causes. This condition arises from innervation disorders of the intestine, dysfunctions of the autonomic nervous system, abnormalities in the smooth muscle layers of the intestinal wall, as well as endocrine and metabolic dysfunctions. Typical symptoms include severe constipation, chronic abdominal pain, and therapy-resistant fecal incontinence.

Outlet obstruction (OO), in contrast, is caused by impaired stool evacuation at the anal level, often due to dyssynergic defecation or, less commonly, anatomical obstructions. Currently, a definitive differentiation between STC and OO in clinical practice is rarely performed, as non-invasive diagnostic tools are lacking. The only gold-standard diagnostic procedure available is anorectal manometry, which requires patient cooperation, making it impractical for young children. Additionally, the rectal insertion of probes and balloons renders it an invasive and potentially traumatizing procedure, which can exacerbate symptoms. As a result, a minimum patient age is required, and the findings are often difficult to interpret objectively.

Existing Methods for Transit Time Measurement

The delayed intestinal transit time associated with STC can be evaluated using:

The modified Hinton test Motility capsules Gastrointestinal transit scintigraphy The lactulose hydrogen breath test

In Germany, the modified Hinton test remains the gold standard. This involves ingestion of 10 radiopaque markers per day for six consecutive days, followed by an abdominal X-ray on day seven to calculate the oro-anal transit time. However, this method is time-consuming and should be used with caution in children due to radiation exposure. Other emerging methods include:

SmartPill motility capsules, which measure temperature, pH, and intraluminal pressure to determine total transit time. However, these are not commercially available and do not offer significant advantages over conventional transit studies to justify the additional cost.

Gastrointestinal transit scintigraphy, which involves a technetium-labeled meal and subsequent gamma camera imaging at 1, 2, and 4 hours. However, this method is time-intensive, expensive, and not widely available. Additionally, it is considered invasive and unsuitable for pediatric use due to radiation exposure.

The lactulose hydrogen breath test, which measures the oro-cecal transit time by detecting bacterial fermentation of lactulose in the cecum. However, this method is limited to assessing small bowel transit only.

Notably, none of these tests can differentiate between an organic and a functional cause of constipation.

Multispectral Optoacoustic Tomography (MSOT) for Transit Time Measurement

Multispectral optoacoustic tomography (MSOT) is based on the emission of laser light at multiple near-infrared wavelengths. This light stimulates biological tissue, leading to ultrasound wave emission, which is then reconstructed into an image. MSOT enables the acquisition of both single-wavelength images and spectrally unmixed images, allowing for the visualization of molecules with known absorption properties, such as hemoglobin and lipids.

Contrast-enhanced MSOT (CE-MSOT) allows for non-invasive, radiation-free visualization of chyme passage through the gastrointestinal tract. Studies have demonstrated that orally administered Indocyanine Green (ICG) can be detected at various locations within the GI tract-including the gastric antrum, terminal ileum, and sigmoid colon-using MSOT.

ICG, which has an absorption peak at approximately 800 nm in the near-infrared spectrum, is well-suited for optical imaging techniques. It is already widely used in medical applications, including intraoperative imaging, liver function diagnostics, and cardiovascular assessments.

Although the oral administration of ICG is an off-label use, systemic side effects are highly unlikely, as ICG is not absorbed and does not undergo enterohepatic circulation, according to its official drug information.

The complete gastrointestinal passage of ICG has been confirmed through fluorescence microscopy detection of ICG in stool samples from subjects following oral administration. Based on this methodology, this study aims to evaluate intestinal transit time in patients with chronic defecation disorders, providing a novel, non-invasive diagnostic tool to address the current gap in pediatric gastrointestinal transit assessment.

Study Objective: Combining MSOT and MRI for Comprehensive GI Transit Analysis

This study aims to integrate MRI sequences specifically designed to visualize peristaltic bowel movements with high temporal resolution, allowing for a detailed assessment of peristaltic frequency and patterns across different intestinal segments. By capturing these peristaltic movements, it becomes possible to identify abnormally reduced peristalsis in the pediatric patient cohort.

By combining MSOT-derived transit time measurements with MRI-based peristalsis visualization, this study offers a comprehensive and non-invasive method to assess gastrointestinal motility. Through this approach, it will be possible to detect segments of the intestine with abnormal transit times and assess chyme transport throughout the entire gastrointestinal tract without exposing patients to radiation or invasive procedures.