Neonatal Hypoganglionosis Mimicking Hirschsprung Disease in a Resource-Limited Setting: A Case Report

Introduction

Pediatric intestinal pseudo-obstruction (PIPO) is a rare and severe disorder characterized by chronic failure of gastrointestinal propulsion, leading to symptoms of intestinal obstruction in the absence of a mechanical lesion. ¹ Although previously grouped with adult chronic intestinal pseudo-obstruction (CIPO), PIPO is now recognized as a distinct pediatric entity with important differences in etiology, clinical course, and management. In contrast to adult CIPO, which is often secondary or acquired, PIPO is predominantly congenital and most commonly results from primary abnormalities of the enteric neuromusculature.^1-3

PIPO comprises a heterogeneous group of enteric neuromyopathies, with enteric neuropathies representing the most frequent pathological substrate in children.^1,4 Hypoganglionosis, defined by a reduced density of enteric ganglion cells, is an uncommon neuropathic variant within this spectrum. ⁵ Unlike Hirschsprung disease, in which ganglion cells are absent, hypoganglionosis involves partial neuronal deficiency and may therefore evade diagnosis using standard rectal suction biopsy techniques.^5,6

Neonatal-onset PIPO often presents with abdominal distension, feeding intolerance, and bilious vomiting, closely mimicking Hirschsprung disease both clinically and radiologically.^1,2 This overlap creates significant diagnostic challenges and may lead to inappropriate surgical interventions when enteric neuropathies are not considered. Importantly, surgical diversion or resection does not address the underlying neuromuscular dysfunction in PIPO and may worsen intestinal function.^1,5

Neonatal hypoganglionosis is particularly rare, with only limited cases reported in the literature, and remains an under-recognized cause of intestinal pseudo-obstruction in early life.^5,7 We report a neonatal case of PIPO due to hypoganglionosis that initially mimicked Hirschsprung disease, highlighting the diagnostic and therapeutic challenges associated with this condition and emphasizing the importance of accurate pathological evaluation in neonates with persistent obstructive symptoms.

Case Presentation

Discussion

Pediatric intestinal pseudo-obstruction (PIPO) is a rare and severe disorder of gastrointestinal motility, particularly when it presents in the neonatal period. It is characterized by functional intestinal obstruction in the absence of a mechanical lesion and is most commonly caused by primary abnormalities of the enteric neuromusculature, including neuropathic and myopathic processes.^1-4,8,9 Hypoganglionosis represents an uncommon neuropathic subtype within this spectrum, defined by a reduced density and abnormal morphology of enteric ganglion cells, and remains infrequently reported in neonates.^2,5,10,11

This case highlights the diagnostic challenges associated with early-onset PIPO and its frequent clinical overlap with Hirschsprung disease. Our patient presented with delayed passage of meconium, progressive abdominal distension since birth, and persistent bilious vomiting, features that appropriately prompted evaluation for Hirschsprung disease. Initial rectal biopsy suggested distal aganglionosis, leading to colostomy formation. However, the absence of clinical improvement following anatomically appropriate diversion raised suspicion for a diffuse motility disorder rather than an isolated distal obstructive lesion. Similar diagnostic trajectories, in which enteric neuromuscular disorders are only considered after unsuccessful surgery, have been described in pediatric reports.^7,11

Definitive diagnosis in our patient required full-thickness intestinal biopsies obtained from multiple bowel segments, which demonstrated reduced density and immature ganglion cells within the myenteric plexus, consistent with hypoganglionosis. This finding underscores a well-recognized limitation of rectal suction biopsy, which is highly effective for diagnosing Hirschsprung disease but cannot reliably detect disorders characterized by partial neuronal loss or abnormalities confined to the myenteric plexus.^5,6,10,11 When the clinical course is discordant with initial histological findings or when symptoms persist despite appropriate diversion, early consideration of full-thickness sampling is essential.

The diagnostic differences between rectal suction biopsy and full-thickness intestinal biopsy, and their respective roles in Hirschsprung disease and PIPO, are summarized in Table 1.

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Table 1.

Comparison of Rectal Suction Biopsy and Full-Thickness Intestinal Biopsy in the Evaluation of Neonatal Intestinal Obstruction^5,6,10,11

Feature	Rectal suction biopsy	Full-thickness intestinal biopsy
Invasiveness	Minimally invasive, bedside procedure	Surgical procedure requiring anesthesia
Tissue Layers Assessed	Mucosa and submucosa	Mucosa, submucosa, myenteric plexus, and muscularis propria
Primary Clinical Role	First-line test for suspected Hirschsprung disease	Definitive evaluation of enteric neuromuscular disorders
Ability to Diagnose Aganglionosis	High sensitivity	High sensitivity
Ability to Diagnose Hypoganglionosis	Limited	Reliable
Ability to Assess Ganglion Cell Density and Morphology	Limited	Comprehensive
Ability to Evaluate Interstitial Cells of Cajal and Smooth Muscle	No	Yes
Diagnostic Utility in PIPO	Screening only	Definitive diagnostic test
Key Limitation	May miss partial or proximal neuropathies	Requires operative intervention

From a management perspective, it is important to emphasize that PIPO is treated primarily through supportive and nutritional strategies rather than curative surgical intervention. Long-term parenteral nutrition, individualized enteral feeding approaches, prevention and treatment of small intestinal bacterial overgrowth, and the use of prokinetic agents constitute the cornerstone of management.^2,8,9 Surgical interventions, including decompressive gastrostomy, jejunostomy, ileostomy, or colostomy, may be beneficial in selected patients for symptom relief or intestinal decompression but do not correct the underlying motility disorder.^8,9,12 Large pediatric series demonstrate that decompressive stomas can provide partial or temporary symptom improvement in selected cases, although outcomes remain variable and the disease burden remains substantial.^9,12

Home parenteral nutrition represents a key component in the long-term management of intestinal failure and has been associated with improved survival and quality of life. However, its implementation in resource-limited settings remains challenging due to financial constraints, limited infrastructure, need for caregiver training, and increased risk of catheter-related complications. In our setting, these limitations significantly affect the feasibility of long-term home-based management.

Intestinal transplantation is not a curative treatment for PIPO and should be considered only in highly selected patients with end-stage intestinal failure, life-threatening complications of long-term parenteral nutrition, or loss of central venous access, and is performed only in specialized tertiary centers^1,2,12; In our patient, these criteria were not met, and management remained primarily supportive. Many children with PIPO survive into childhood and adulthood with optimized medical and nutritional management, although long-term dependence on parenteral nutrition is common, particularly in neonatal-onset disease.^2,8,9,12

In our patient, persistent dependence on parenteral nutrition, recurrent catheter-related bloodstream infections, and failure of enteral feeding trials reflected the severity of the disease. Management was further complicated by the challenges of long-term parenteral nutrition in a resource-limited setting. This highlights an important global health issue: in such settings, clinicians must balance the risks of prolonged parenteral nutrition with limitations in resources and supportive care. Such contexts emphasize the importance of early and accurate diagnosis, avoidance of unnecessary surgery, and optimization of supportive care.

By detailing the complete diagnostic and therapeutic course of neonatal hypoganglionosis, this case highlights important diagnostic challenges, particularly the limitations of rectal suction biopsy and the consequences of discordant clinical evolution, as well as the impact of resource limitations on management. PIPO should be considered in neonates with persistent obstructive symptoms despite anatomically appropriate diversion, and reliance on rectal suction biopsy alone may be insufficient when the clinical course is atypical. Early use of full-thickness biopsy can clarify the diagnosis, guide management, and potentially prevent repeated ineffective surgical interventions.

Conclusion

In summary, this case highlights three important clinical lessons. First, persistent obstructive symptoms following anatomically appropriate diversion in neonates should prompt early consideration of motility disorders, particularly pediatric intestinal pseudo-obstruction. Second, full-thickness, multi-level intestinal biopsies play a key role in distinguishing hypoganglionosis from aganglionosis and may help prevent repeated or ineffective surgical interventions when the clinical course is discordant with initial histological findings. Third, although PIPO is primarily managed through long-term medical and nutritional support, its management remains particularly challenging in resource-limited settings. Reporting real-world experiences from resource-limited settings is therefore essential to expand the limited literature and to improve awareness, diagnosis, and management of rare, high-risk conditions such as neonatal PIPO.