ABSTRACT
OBJECTIVE: Parastomal hernia (PH) in association with an ileal conduit is a common complication that is difficult to treat. Mesh reinforcement has been suggested to improve outcomes; either as prophylaxis or for treatment of a parastomal hernia during abdominal wall reconstruction. PATIENTS AND METHODS: A retrospective study was performed in consecutive patients subjected to mesh implantation between 2000 and 2016 having a concurrent or previous ileal conduit reconstruction. Postoperative and late urostomal complications, as well as hernia occurrence, were ascertained by a chart review of patients' records. RESULTS: A total of 25 patients were included of whom 13 (52%) developed either a urostomal complication, a PH, or both. Complications were caused by mesh erosion in four patients, of which three were diagnosed more than five years after surgery. Four patients developed a urostomal stenosis. One out of eight patients with urostomal complications were subjected to a new ileal conduit reconstruction and another four to other types of revisional surgery. CONCLUSIONS: Every second patient with an ileal conduit developed either a local urostomal complication, a PH, or both after abdominal wall mesh reconstruction. A careful and cautious attitude towards the use of mesh in patients with an ileal conduit is suggested.
Subject(s)
Abdominal Wall , Surgical Stomas , Urinary Diversion , Abdominal Wall/surgery , Cystectomy/adverse effects , Humans , Postoperative Complications/epidemiology , Postoperative Complications/etiology , Retrospective Studies , Surgical Mesh/adverse effects , Surgical Stomas/adverse effects , Urinary Diversion/adverse effectsABSTRACT
Forensic biomarkers are needed in sudden infant death syndrome (SIDS) to help identify this group among other sudden unexpected deaths in infancy. Previously, we reported multiple serotonergic (5-HT) abnormalities in nuclei of the medulla oblongata that help mediate protective responses to homeostatic stressors. As a first step toward their assessment as forensic biomarkers of medullary pathology, here we test the hypothesis that 5-HT-related measures are abnormal in the cerebrospinal fluid (CSF) of SIDS infants compared with those of autopsy controls. Levels of CSF 5-hydroxyindoleacetic acid (5-HIAA) and homovanillic acid (HVA), the degradative products of 5-HT and dopamine, respectively, were measured by high-performance liquid chromatography in 52 SIDS and 29 non-SIDS autopsy cases. Tryptophan (Trp) and tyrosine (Tyr), the substrates of 5-HT and dopamine, respectively, were also measured. There were no significant differences in 5-HIAA, Trp, HVA, or Tyr levels between the SIDS and non-SIDS groups. These data preclude the use of 5-HIAA, HVA, Trp, or Tyr measurements as CSF autopsy biomarkers of 5-HT medullary pathology in infants who have died suddenly and unexpectedly. They do, however, provide important information about monoaminergic measurements in human CSF at autopsy and their developmental profile in infancy that is applicable to multiple pediatric disorders beyond SIDS.
Subject(s)
Hydroxyindoleacetic Acid/cerebrospinal fluid , Serotonin/cerebrospinal fluid , Sudden Infant Death/cerebrospinal fluid , Analysis of Variance , Chromatography, High Pressure Liquid , Databases, Factual/statistics & numerical data , Female , Homovanillic Acid/cerebrospinal fluid , Humans , Infant , Male , Sudden Infant Death/pathology , Tryptophan/cerebrospinal fluid , Tyrosine/cerebrospinal fluidABSTRACT
The caudal serotonergic (5-HT) system is a critical component of a medullary "homeostatic network" that regulates protective responses to metabolic stressors such as hypoxia, hypercapnia, and hyperthermia. We define anatomically the caudal 5-HT system in the human medulla as 5-HT neuronal cell bodies located in the raphé (raphé obscurus, raphé magnus, and raphé pallidus), extra-raphé (gigantocellularis, paragigantocellularis lateralis, intermediate reticular zone, lateral reticular nucleus, and nucleus subtrigeminalis), and ventral surface (arcuate nucleus). These 5-HT neurons are adjacent to all of the respiratory- and autonomic-related nuclei in the medulla where they are positioned to modulate directly the responses of these effector nuclei. In the following review, we highlight the topography and development of the caudal 5-HT system in the human fetus and infant, and its inter-relationships with nicotinic, GABAergic, and cytokine receptors. We also summarize pediatric disorders in early life which we term "developmental serotonopathies" of the caudal (as well as rostral) 5-HT domain and which are associated with homeostatic imbalances. The delineation of the development and organization of the human caudal 5-HT system provides the critical foundation for the neuropathologic elucidation of its disorders directly in the human brain.