Pleural effusion and respiratory compromise from spontaneous migration of a ventriculoperitoneal shunt catheter in a patient with normal-pressure hydrocephalus.

Background: Ventriculoperitoneal shunt (VPS) insertion is one of the most common neurosurgical procedures done around the world to treat hydrocephalus. The occurrence of spontaneous migration of the peritoneal shunt catheter into the thoracic cavity is a very rare complication; we report here case number 27 of respiratory complications of a VPS in a patient with normal-pressure hydrocephalus (NPH). Case Description: A 76-year-old woman with Alzheimer's disease and anosognosia was diagnosed idiopathic NPH treated surgically with a VPS. Pleural effusion and pulmonary complications occurred 4 weeks after the insertion of the shunt due to the spontaneous migration of the peritoneal catheter of the VPS into the thoracic cavity. The hydrothorax of cerebrospinal fluid was drained and the distal catheter was removed and replaced. The patient made an uneventful recovery.
Conclusion: Due to the rarity of this complication, there are no standard corrective procedures. Some of the methods used to diagnose and successfully treat this rare complication of the VPS are presented. Copyright:

INTRODUCTION

Pleural effusion is a rare complication of a ventriculoperitoneal shunt (VPS) surgery with only 26 cases reported between 1977 and 2020[10,11] due to spontaneous migration of the peritoneal shunt into the thoracic cavity. The respiratory complications from thoracic migration and penetration from the peritoneal space are pleural effusions, bronchial perforation, pneumothorax, and pneumonia.[5] Despite the elevated frequency of this neurosurgical procedure, respiratory complications of the VPS are extremely rare without standard corrective procedures.[3] The approach to solving these complications depends on the type of respiratory complication present and the age of the recipient – pediatric or adult. In the case reported here, after several weeks of postoperative improvement, the patient’s recovery regressed and she began demonstrating respiratory compromise. The several steps required to resolve the pulmonary complications are detailed.

CASE REPORT

This 76-year-old Black woman developed Alzheimer’s disease (AD) progressively and slowly over a 21-year period followed in the past 2 years by alterations in ambulation with slightly irregular gait. Over the next 18 months, she began to demonstrate further declines in cognition, bladder and stool incontinence, and worsening gait accompanied by loss of balance. Six months before the VPS placement, the patient was ambulatory but required constant assistance due to severe loss of balance and near-complete incontinence. The diagnosis of AD had been confirmed with neuropsychiatric testing and brain imaging in 2015. She received regular assessments from primary care, neurology, and geriatric psychiatry; medications included sertraline (100 mg QHS), quetiapine (25 mg QHS), lisinopril (25 mg QD), Vitamin D3 (5000 IUs QD), and 5-methyltetrahydrofolate (1330 mcg QD) due to a single-nucleotide polymorphism of 5-MTHFR C677T.

In February of 2021, the patient fell for the 3rd time in 4 months. The previous two falls were minor resulting in abrasions. However, with the third fall, she hit the right posterior side of her head, which prompted a computerized tomography (CT) of the head and neck in the emergency department. On review of the two CT scans (2015 and 2021), her neurologist (GCR) noted that ventriculomegaly had developed. The Evans index[7,18] comparison between the two CT studies was 0.31 and 0.38, respectively (normal <0.30). In the presence of ventriculomegaly and with a clinical triad of abnormal gait frequent falls, incontinence, and cognitive decline, a diagnosis of NPH was considered.[16] A large-volume lumbar puncture (LP) with drainage of 37 mL of cerebrospinal fluid (CSF) demonstrated clinical neurologic improvement post-LP and confirmed the diagnosis of NPH. The consulting neurosurgeon (YJZ) inserted a VPS on 3.31.2021. Postoperatively, abdomen X-rays confirmed the proper placement of the VPS with the distal catheter in the right side of the peritoneal cavity [Figure 1].

Figure 1:

Abdomen X-rays showing placement of the distal catheter of the ventriculoperitoneal shunt in the right side of the peritoneal cavity.

Her immediate postoperative recovery was progressing well with resolution of the incontinence, imbalance, and with cognitive improvement. To regain strength, mobility, and function, she received physical and occupational therapy (PT/ OT) and cognitive nursing care resulting in improvement in all of the above fields. Within the 4th week, some regression of the gait problem was observed and a repeated CT of the head showed an Evans index still at 0.38. Therefore, the flow of the VPS valve was increased by neurosurgery.

Within a day or two of the increased VPS flow, the patient began having dyspnea on exertion, shortness of breath, fatigue, and worsening cognition. Blood pressures remained normal, with repeated pulse oximetry (SaO2) levels of 97–98%. Her pulse rate during the postoperative period and during PT/OT ranged from the mid-90s to mid-80s, but then she began having tachycardia (pulse 100–110 bpm). She was now also experiencing mouth breathing and grunting with exertion. She developed 2+ bilateral pitting edema that did not resolve after resting supine for 8 h. No venous neck distention nor orthopnea was observed. The increasing respiratory challenges necessitated the discontinuation of all PT/OT. Physical examination by her PCP was unremarkable, including no clinical evidence of respiratory disease and normal laboratory workup. EKG showed left ventricular deviation. A 2-view chest X-ray showed, “new, small right costophrenic angle effusion. VP shunt tubing on the right. Tubing was coiled over the thoracic region with tip projected near the thoracolumbar junction; position of the distal shunt tubing is unclear” [Figure 2]. CT of the lungs with contrast was negative for pulmonary embolism but confirmed the hydrothorax and showed some atelectasis. Bilateral venous Doppler of the lower extremities was negative for thrombophlebitis. She was admitted to the hospital and on review with the consulting pulmonologist and the hospitalist (OA), it was determined that the distal VPS catheter was no longer inside the abdomen but had migrated cranially with the tip terminating in the thorax.

Figure 2:

Chest X-ray demonstrating migration of the distal end of the ventriculoperitoneal shunt catheter inside the right side of the thorax. The proximal end of the catheter can be seen traversing the diaphragm from the abdominal cavity. A small right costophrenic angle effusion is also present.

The interventional radiologist performed ultrasound-guided thoracentesis and removed from the right pleural space 400 cc of clear fluid consistent with CSF that was sent for extensive infectious workup and cytology review. Immediately postprocedure, the patient’s respiratory challenges began to resolve.

Neurosurgical treatment

The patient was transferred from the local hospital to a tertiary care hospital at the Texas Medical Center, where the original neurosurgeon (YJZ) replaced the VPS catheter. Surgical removal of the distal portion of the shunt is, generally, the main method of treatment for this complication. In this case, the distal portion of the shunt that extended from the level of the right clavicle into the thoracic cavity was removed and replaced with another catheter going cephalad from the peritoneum to reconnect with the proximal portion of the VPS at that point. After recent VPS placement, noncontrast CT head is routinely performed. Furthermore, radiographs of the skull, neck, chest, and abdomen (“shunt series”) are essential in evaluating the structural integrity and proper anatomical position of the system. Although very rare in occurrence, distal catheter migration can be readily detected, and appropriate corrective measures can be applied.

In addition to AD and NPH, this patient concomitantly suffered also from anosognosia or “impaired awareness of the illness.”[14,15] Therefore, she never complained to the PT/OT therapists, nurses, caregivers, or doctors of any respiratory difficulty although it became increasingly clear to the caregiver, her husband, and a retired physician, that something was clinically wrong and worsening. Anosognosia is a neuropsychiatric condition that may occur in patients with stroke,[10,17] brain tumors, AD, and Huntington’s disease. It was originally recognized in 1914 but became widely recognized in the late 1980s.

The possible presence of anosognosia should be suspected in adult patients with cognitive or neurological deficits and when present it requires the clinical team to work closer with the family members and caregivers to prevent potential complications caused by the patients’ lack of complaints.[2] The heightened awareness must cover the various potential complications that may occur over time. Anosognosia is obliquely referred to in training nurses on how to recognize postoperative complications in VPS patients[8,23] but it should be mentioned as a possible component of VPS complications that must be addressed by care coordinators or at discharge planning.

DISCUSSION

Annually, approximately 30,000 VPS procedures are performed in the US alone.[9] Mechanical failures and infections are known complications of VP shunt placements. VPS failures are most commonly due to mechanical shunt failures in the first 2-year postplacement.[9,12] Infections causing malfunctions account for approximately 5–15%.[6] Pleural effusions due to VPS are rare, occurring mainly in children,[1,4,13,19,21-24] and with 60% of all pleural effusions being associated with the distal catheter migration into the thorax.

The mechanism of VPS pleural effusions is unclear and several hypotheses have been proposed including leaking of CSF into the thoracic cavity causing a pleural effusion through congenital diaphragmatic openings such as the Morgagni foramen and/or Bochdalek foramen,[22] local inflammatory reactions, and diaphragmatic erosion due to repeated VPS tip microtrauma.[19,24] Furthermore, the negative intrathoracic pressure against the opposite, positive intra-abdominal pressure, may cause the fluid shift into the thoracic cavity.[13,21,20]

In general, the major differential diagnoses for pleural effusions include cardiovascular, infectious, malignancy, or iatrogenic causes. Other etiologies such as vasculitis, connective tissue diseases, and lymphatic abnormalities as well as other rarer causes would be less likely to present initially as an isolated pleural effusion without any other signs or symptoms of the coexisting disease condition.

The differential diagnosis of a unilateral pleural effusion may be further narrowed to primarily iatrogenic, infectious, or due to a malignancy. Pleural effusions due to heart failure are typically bilateral but when unilateral, they are usually right sided as seen in this case.

Table 1 summarizes the potential mechanism of action for the cause of the cephalad VPS migration of the distal tip of the catheter, penetrating into the thoracic cavity.[13]

Table 1:

Potential causes of migration of distal catheter of VPS.

CONCLUSION

In this case review, we described the development of a CSF pleural effusion in a patient with a VPS malfunction due to migration of the distal catheter from the peritoneal space into the thoracic cavity through the diaphragm. Drainage of the CSF pleural effusion by an interventional radiologist followed by neurosurgical removal and replacement of the distal catheter from the level of the sternum to the pleural cavity with adjustment of the VPS valve allowed optimal drainage of the NPH.