Delayed return of gastrointestinal function after hepatectomy in an ERAS program: incidence and risk factors.

BACKGROUND: Delayed return of gastrointestinal function (DGIF) after hepatectomy can involve increased morbidity and prolonged hospital stay. Yet, data on incidence and risks factors are lacking. METHODS: All consecutive patients who underwent hepatectomy between June 2018 and December 2020 were included. All patients were included in an enhanced recovery after surgery (ERAS) program. DGIF was defined by the need for nasogastric tube (NGT) insertion after surgery. DGIF risk factors were identified. RESULTS: Overall, 206 patients underwent hepatectomy. DGIF occurred in 41 patients (19.9%) after a median time of 2 days (range, 1-14). Among them, 6 patients (14.6%) developed aspiration pneumonia, of which one required ICU for mechanical ventilation. DGIF developed along with an intraabdominal complication in 7 patients (biliary fistula, n = 5; anastomotic fistula, n = 1; adhesive small bowel obstruction, n = 1). DGIF was associated with significantly increased severe morbidity rate (p = 0.001), prolonged time to normal food intake (p < 0.001) and hospital stay (p < 0.001) and significantly decreased overall compliance rate (p = 0.001). Independent risk factors of DGIF were age (p < 0.001), vascular reconstruction (p = 0.007), anaesthetic induction using volatiles (p = 0.003) and epidural analgesia (p = 0.004). Using these 4 variables, a simple DGIF risk score has been developed allowing patient stratification in low-, intermediate- and high-risk groups. CONCLUSION: DGIF after hepatectomy was frequently observed and significantly impacted postoperative outcomes. Identifying risk factors remains critical for preventing its occurrence.

Prone Positioning for Severe Acute Respiratory Distress Syndrome in COVID-19 Patients by a Dedicated Team: A Safe and Pragmatic Reallocation of Medical and Surgical Work Force in Response to the Outbreak.

OBJECTIVE: The aim of this study was to define whether rapidly reallocating health care workers not experienced with PP for performing PP in ICU is feasible and safe. SUMMARY BACKGROUND DATA: In the setting of severe acute respiratory distress syndrome (ARDS), the use of prone and supine positioning procedures (PP) has been associated with improved oxygenation resulting in decreased mortality. Nevertheless, applying PP is time consuming for ICU staffs that are at risk of mental of physical exhaustion, especially with the constant surge of admitted COVID-19 patients with severe ARDS. METHODS: This prospective cohort study conducted at a single regional university hospital between March 27 and April 15, 2020. Among 117 patients admitted to ICU, 67 patients (57.3%) presented with proven SARS-CoV-2 infection with severe ARDS requiring PP. After accelerated simulation training, 109 volunteers including surgeons, physicians, nurses and physiotherapists, multiple dedicated teams performed daily multiple PP following a systematic checklist. Patient demographics and PP data were collected. Patient safety and health care workers safety were assessed. RESULTS: Among 117 patients admitted to ICU, 67 patients (57.3%) required PP. Overall, 53 (79%) were male, with a median age of 68.5 years and median body mass index of 29.3 kg/m. A total of 384 PP were performed. Overall, complication occurred in 34 PP (8.8%) and led to PP cancelation in 4 patients (1%). Regarding health care workers safety, four health care workers presented with potential COVID-19 related symptoms and none was positive. CONCLUSIONS: To overcome the surge of critically ill COVID-19 patients, reallocating health care workers to targeted medical tasks beyond their respective expertise such as PP was safe.

Causes of death in people with chronic HBV infection: A population-based cohort study.

BACKGROUND & AIMS: Mortality related to hepatitis B virus (HBV) is not well known in developed countries. The aim of this study was to investigate in a population-based cohort the excess risk of death in HBV patients compared with mortality in the general population and to identify risk factors related to all-cause mortality and HBV-related mortality. METHODS: A specialized population-based registry has recorded data from patients with chronic HBV infection in a population of one million inhabitants in France since 1994. Standardized mortality rates for all-cause death and HBV-related death were calculated. Cumulative mortality rates were calculated using the Kaplan-Meier method. Multivariate analysis was performed using a Cox model. RESULTS: Between 1994 and 2009, 1117 people were diagnosed with chronic HBV infection. Of these 136 (12.2%) died. All-cause mortality was significantly higher in HBV-infected people (standardized mortality ratio (SMR) 1.7 [1.4-2.0]). There was substantial excess mortality due to hepatocellular carcinoma (SMR 15.9 [10-24.1]), non-Hodgkin lymphoma (SMR 8.6 [3.1-18.6]) and liver disease (SMR 10.2 [5.8-16.6]). The cumulative rates for all-cause mortality were 8.6% at 5 years, 12.6% at 10 years and 18.5% at 15 years. The corresponding values for HBV-related mortality were 3.5%, 4.2%, and 5.8%. The multivariate analysis for all-cause mortality and for HBV-related mortality showed that male sex, age over 45 at diagnosis, current alcoholism and nosocomial risk factors were predictors of increased mortality. CONCLUSION: This study shows increased all-cause mortality in HBsAg-positive patients, with considerable excess mortality due to chronic liver disease, hepatocellular carcinoma and non-Hodgkin lymphoma.

Age-dependent Mendelian predisposition to herpes simplex virus type 1 encephalitis in childhood.

OBJECTIVE: To test the hypothesis that predisposition to childhood herpes simplex virus (HSV) type 1 encephalitis (HSE) may be determined in part by human genetic factors. STUDY DESIGN: A genetic epidemiologic survey of childhood HSE (onset at age 3 months to 15 years) over a 20-year period (1985-2004) was conducted throughout France (comprising 29 university hospital neuropediatric centers). A total of 85 children fulfilled the diagnostic criteria for inclusion. Family and personal histories were obtained by face-to-face interview for 51 patients. RESULTS: No familial cases of HSE were identified in our survey; however, a high proportion (20%) of the children interviewed had a relevant family history: parental consanguinity (12% of patients), early-onset herpetic keratitis in a first-degree relative (6%), or both (2%). The narrow window of high susceptibility to HSE before age 3 years (62% of patients) further indicates that predisposition to HSE is tightly age-dependent. CONCLUSIONS: This survey suggests that childhood HSE, although sporadic, may result from Mendelian predisposition (from autosomal recessive susceptibility in particular), at least in some children. There likely is incomplete penetrance, however, which may reflect, at least in part, the impact of age at the time of HSV-1 infection.

Pericallosal lipoma and middle cerebral artery aneurysm: a coincidence?

Intracranial lipomas are rare congenital malformations that can often be seen in association with other brain malformations; agenesis or dysgenesis of the corpus callosum is the most frequently associated brain anomaly. They are usually pericallosal asymptomatic midline lesions. Intracranial lipomas associated with a non-contiguous cerebral aneurysm are extremely rare. We report an infant with partial agenesis of the corpus callosum and pericallosal lipoma associated with cerebral haemorrhage due to a distal middle cerebral artery aneurysm. Such an association is probably not fortuitous and could suggest a pathogenic relationship.

Interest for a Systematic Rehabilitation Program Including Physical Exercise and Lifestyle Accompaniment for Women Recently Treated for Early Breast Cancer: A Comparative Study.

BACKGROUND/AIM: A prospective non-randomized study was performed on 68 women who had recently undergone curative treatment (surgery +/- adjuvant radio/chemotherapy) for breast cancer. PATIENTS AND METHODS: Patients were distributed into 2 subgroups, control (C) group (n=21) and experimental (E) group (n=47). The last group participated in a 12-week rehabilitation program associating physical activity and psychoeducational workshops, including management of stress, diet, and sleep disorders. RESULTS: Despite the initial imbalance between the groups (patients from C group were older and had received less chemotherapy than those from the E group), at the end of the rehabilitation program, we observed a significant improvement in global health feeling and in objective physical tests (distance covered in 6 min and objective measures of ergospirometry), and a decrease in pathological fatigue, while these different items remained quite stable over time in the control group. CONCLUSION: It is suggested to recommend structured rehabilitation to any patient who does not have a contraindication to it. In addition, the scientific literature encourages us to extend the spectrum of oncological rehabilitation to pathologies other than breast cancer.

Entry and distribution of microglial cells in human embryonic and fetal cerebral cortex.

Microglial cells penetrate into and scatter throughout the human cortical grey and white matter according to a specific spatiotemporal pattern during the first 2 trimesters of gestation. Routes of entry were quantitatively and qualitatively different from those identified in the diencephalon. Starting at 4.5 gestational weeks, amoeboid microglial cells, characterized by different antibodies as Iba1, CD68, CD45, and MHC-II, entered the cerebral wall from the ventricular lumen and the leptomeninges. Migration was mainly radial and tangential toward the immature white matter, subplate layer, and cortical plate, whereas pial cells populated the prospective layer I. The intraparenchymal vascular route of entry was detectable only from 12 gestational weeks. Interestingly, microglial cells accumulated in restricted laminar bands particularly at 19 to 24 gestational weeks among the corona radiata fibers rostrally, extending caudally in the immature white matter to reach the visual radiations. This accumulation of proliferating MIB1-positive microglia (as shown by MIB1-Iba1 double immunolabeling) was located at the site of white matter injury in premature neonates. The spatiotemporal organization of microglia in the immature white and grey matter suggests that these cells may play active roles in developmental processes and in injury to the developing brain.

Genotype-phenotype analysis in patients with giant axonal neuropathy (GAN).

Giant axonal neuropathy (GAN, MIM: 256850) is a devastating autosomal recessive disorder characterized by an early onset severe peripheral neuropathy, varying central nervous system involvement and strikingly frizzly hair. Giant axonal neuropathy is usually caused by mutations in the gigaxonin gene (GAN) but genetic heterogeneity has been demonstrated for a milder variant of this disease. Here, we report ten patients referred to us for molecular genetic diagnosis. All patients had typical clinical signs suggestive of giant axonal neuropathy. In seven affected individuals, we found disease causing mutations in the gigaxonin gene affecting both alleles: two splice-site and four missense mutations, not reported previously. Gigaxonin binds N-terminally to ubiquitin activating enzyme E1 and C-terminally to various microtubule associated proteins causing their ubiquitin mediated degradation. It was shown for a number of gigaxonin mutations that they impede this process leading to accumulation of microtubule associated proteins and there by impairing cellular functions.

Rituximab in subacute sclerosing panencephalitis.

Subacute sclerosing panencephalitis (SSPE) is a progressive, fatal neurological disorder of childhood and early adolescence. It is caused by a persistent measles virus infection of the brain without any available treatment to date. The physiopathology of the disease is largely unknown. Considering the potential role of humoral immunity in the pathogenesis of SSPE, one patient was given compassionate anti-CD20 antibodies. However, disease progression under treatment led to reconsider B cell involvement in this pathology. Nevertheless, we observed that carbamazepine was useful in improving life quality in our patient, and should be considered as a first-line drug. To date, measles vaccination remains the only solution to SSPE.

Distribution and differentiation of microglia in the human encephalon during the first two trimesters of gestation.

We describe the topographical distribution of microglial subpopulations during development of the human diencephalon and telencephalon. Brains from embryos and fetuses age 5-23.5 gestational weeks (gw) were subjected to single- and double-immunolabeling for lectin RCA-1 (Ricinus Communis Agglutinin 1), Iba1 (a microglial marker), CD68 (specific of macrophages), CD45 (marker for mononucleate cells of hematopoietic lineage), CD34 (expressed on endothelial cells), and MIB1 and Ki67 (markers for cell proliferation). At 5.5 gw the first intracerebral microglial cells were seen close to the meninges and choroid plexus near the di-telencephalic fissure. They were amoeboid and positive for Iba1, CD45, and RCA-1, whereas cells in the deep parenchyma expressed Iba1/CD68/RCA-1 and constituted clusters. In the developing diencephalon, microglial clusters were located in junctional regions of the white matter anlagen, most notably at the junctions of the internal capsule with the thalamic projections, the external capsule, and the cerebral peduncle. In the cortical anlagen, Iba1+/RCA-1/CD68+/CD45+ cells accumulated at 10-12 gw, constituting a tangential band at the junction between the cortical plate and the subplate. Between 10 and 16 gw microglial clusters increased markedly in size and cellular density. Contact between Iba1+ microglia and CD34+ blood vessels was clearly visible from 10-12 gw onward, first in microglial clusters of the white matter anlagen and subsequently throughout the parenchyma. From the middle of the second trimester onward microglial cells colonized the entire cerebral parenchyma, developed a ramified morphology, and downregulated their surface antigens, but remained more numerous in the white matter.

Neuronal migration depends on intact peroxisomal function in brain and in extraneuronal tissues.

Functional peroxisome deficiency, as encountered in Zellweger syndrome, causes a specific impairment of neuronal migration. Although the molecular mechanisms underlying the neuronal migration defect are at present unknown, the excess of very long chain fatty acids in brain, a consequence of peroxisomalbeta-oxidation deficiency, has often been hypothesized to play a major role. The purpose of the present study was to investigate the contribution of peroxisomal dysfunction in brain as opposed to peroxisomal dysfunction in extraneuronal tissues to the migration defect. Peroxisomes were selectively reconstituted either in brain or liver of Pex5 knock-out mice, a model for Zellweger syndrome, by tissue-selective overexpression of Pex5p. We found that both rescue strains exhibited a significant correction of the neuronal migration defect despite an incomplete reconstitution of peroxisomal function in the targeted tissue. Animals with a simultaneous rescue of peroxisomes in both tissues displayed a pattern of neuronal migration indistinguishable from that of wild-type animals on the basis of cresyl violet staining and 5',3'-bromo-2'-deoxyuridine birth-dating analysis. These data suggest that peroxisomal metabolism in brain but also in extraneuronal tissues affects the normal development of the mouse neocortex. In liver-rescued mice, the improvement of the neuronal migration was not accompanied by changes in very long chain fatty acid, docosahexaenoic acid, or plasmalogen levels in brain, indicating that other metabolic factors can influence the neuronal migration process.

Prenatal ischemia and white matter damage in rats.

Ischemia/reperfusion injury to the developing brain is a major cause of neurologic abnormalities in preterm infants. To investigate the underlying mechanisms, we modified a previously described rat model of unilateral uterine-artery ligation on the 17th embryonic day (E17). Growth retardation was taken as an index of in utero ischemia, and pups born with a birth weight more than 2 standard deviations below that of controls were compared with the same-litter, normal-growth control pups born from the nonligated horn. Prenatal ischemia probably associated with hypoxia and followed by reperfusion at birth induced white matter damage at a developmental stage corresponding to extreme prematurity in humans. On P0 (day of birth), growth-retarded pups exhibited lesions in the cingular white matter and internal capsule with increased counts of activated microglial cells for 2 weeks compared with controls. Astrogliosis was detected in the injured white matter. On P3, increased apoptotic cell death was seen in O4-positive preoligodendrocytes, which were abnormally scarce on P7. Defective myelination, as assessed by myelin-binding-protein labeling, was detected until adulthood. The diffuse white matter damage in growth-retarded rats replicated the main features of white matter damage in human preterm infants.

Selective activation of central subtypes of the nicotinic acetylcholine receptor has opposite effects on neonatal excitotoxic brain injuries.

The incidence of neurological disabilities ascribable to perinatal injury is rising in Western countries, raising ethical and financial problems. No curative treatments are available. The pathophysiology of brain lesions of hypoxic-ischemic or inflammatory origin involves various neurotransmitters or neuromodulators. Among these, glutamate plays a key role. By overactivating N-methyl-D-aspartate receptors, it triggers the excitotoxic cascade. Although addictive, nicotine prevents excitotoxic neuronal death in adult animals. Its potential neuroprotective effects have not been evaluated in neonates. We found that nicotine is neuroprotective in vivo, in a murine model of neonatal excitotoxic brain injury, and in vitro, in primary cultures of cortical neurons. We investigated the respective roles in nicotine-related neuroprotection of the two dominant nicotinic acetylcholine receptor (nAChR) isoforms, namely, alpha4beta2 (heteropentameric) and alpha7 (homopentameric). Inhibition of alpha4beta2, either pharmacological (i.e., an alpha4beta2 nAChR antagonist) or molecular (beta2-/- knockout mice), abolished the protective effect of nicotine in vivo and in vitro, suggesting the involvement of alpha4beta2 nAChR in neonatal nicotine-related neuroprotection. In contrast, activation of alpha7 nAChR, which is protective in adult animals, was deleterious in our neonatal model, whereas its blockade, either pharmacological or molecular (alpha7-/- knockout mice) provided neuroprotection. Neuroprotective strategies must consider these opposite properties of distinct nAChR isoforms in neonates.

Incongruent cerebral growth in sudden infant death syndrome.

Sudden infant death syndrome remains a leading cause of post-neonatal mortality in developed countries. Its etiopathogenic mechanisms are unknown. In this neuropathologic study, we noticed that the weights of the brains of infants who died from sudden infant death syndrome (n = 97) were invariably heavier in comparison with those of a group of age-matched controls (n = 23) issuing from the same local population. Brain edema was not a major element, and there were no significant microscopic or macroscopic cerebral anomalies in the brains from either of the study groups. Head circumference did not show a parallel increase in infants with sudden infant death syndrome. The excessive brain weight might reflect abnormal cerebral development and could be detrimental to vital neural control. In a previous study, we disclosed cytokine overexpression in the brains of these victims. Whether increased brain weight is linked to cytokine up-regulation remains, however, a moot case and merits further exploration.

Gestational hypoxia induces white matter damage in neonatal rats: a new model of periventricular leukomalacia.

In the premature infant, periventricular leukomalacia, usually related to hypoxicischemic white matter damage, is the main cause of neurological impairment. We hypothesized that protracted prenatal hypoxia might induce white matter damage during the perinatal period. Pregnant Sprague-Dawley rats were placed in a chamber supplied with hypoxic gas (10% O2-90% N2) from embryonic day 5 (E5) to E20. Neonatal rat brains were investigated by histology, immunocytochemistry, western blotting, in situ hybridization, DNA fragmentation analysis, and in vivo magnetic resonance imaging (MRI). Body weight of pups subjected to prenatal hypoxia was 10 to 30% lower from P0 to P14 than in controls. Specific white matter cysts were detected between P0 and P7 in pups subjected to prenatal hypoxia, in addition to abnormal extra-cellular matrix, increased lipid peroxidation, white matter cell death detected by TUNEL, and increased activated macrophage counts in white matter. Subsequently, gliotic scars and delayed myelination primarily involving immature oligodendrocytes were seen. In vivo MRI with T1, T2, and diffusion sequences disclosed similar findings immediately after birth, showing strong correlations with histological abnormalities. We speculate that protracted prenatal hypoxia in rat induces white matter damage occurring through local inflammatory response and oxidative stress linked to re-oxygenation during the perinatal period.

Perinatal and early postnatal changes in the expression of monocarboxylate transporters MCT1 and MCT2 in the rat forebrain.

In addition to glucose, monocarboxylates including lactate represent a major source of energy for the brain, especially during development. We studied the immunocytochemical expression of the monocarboxylate transporters MCT1 and MCT2 in the rat brain between embryonic day (E) 16 and postnatal day (P) 14. At E16-18, MCT1-like immunoreactivity was found throughout the cortical anlage, being particularly marked medially in the hippocampal anlage next to the ventricle. In a complementary pattern, MCT2-like immunoreactivity was expressed along the medial and ventral border of the ventricle in the medial septum and habenula before birth. The hypothalamic area exhibited MCT2 and MCT1 positive areas from E18 on. These transient labelings revealed four main sites of monocarboxylate and/or glucose exchange: the brain parenchyma, the epithelial cells, the ependymocytes, and the glia limitans. During the first postnatal week, MCT1 immunoreactivity extended massively to the vessel walls and moderately to the developing astrocytes in the cortex. In contrast, MCT2 immunoreactivity was faint in blood vessels but massive in developing astrocytes from P3 to P7. Neither MCT2 nor MCT1 colocalized with neuronal, microglial, or oligodendrocytic markers during the first postnatal week. At P14, a part of the scattered punctate MCT2 staining could be associated with astrocytes and postsynaptic dendritic labeling. The transient pattern of expression of MCTs throughout the perinatal period suggests a potential relationship with the maturation of the blood-brain barrier.

Caffeine induces sonic hedgehog gene expression in cultured astrocytes and neurons.

Caffeine affects early in vivo murine brain development by accelerating the evagination of the primitive neuroepithelium into telencephalic vesicles. In this model, caffeine induces the expression of the regulatory subunit alpha of protein kinase A (PKA RI alpha) and of Sonic hedgehog (Shh). The understanding of the molecular mechanisms linking caffeine and neural gene expression would benefit from a reproducible in vitro model. Accordingly, the present study aimed to determine whether caffeine modulated the expression of these genes in primary neuronal and astroglial cultures derived from developing murine neocortex. Using real-time PCR, the results showed that caffeine induced robust overexpression of Shh mRNA in both cell types without significantly modifying PKA RI alpha gene expression.

Immunocytochemical expression of monocarboxylate transporters in the human visual cortex at midgestation.

Lactate and the other monocarboxylates are a major energy source for the developing brain. We investigated the immunocytochemical expression of two monocarboxylate transporters, MCT1 and MCT2, in the human visual cortex between 13 and 26 post-ovulatory weeks. We used immunoperoxidase and immunofluorescence techniques to determine whether these transporters co-localized with markers for blood vessels (CD34), neurons (microtubule-associated protein 2 [MAP2], SMI 311), radial glia (vimentin), or astrocytes (glial fibrillary acidic protein [GFAP], S100beta protein). MCT1 immunoreactivity was visible in blood vessel walls as early as the 13th week of gestation mainly in the cortical plate and subplate. At this stage, less than 10% of vessels in the ventricular layer expressed MCT1, whereas all blood vessels walls showed this immunoreactivity at the 26th gestational week. Starting at the 19th week of gestation, sparse MCT1 positive cell bodies were detected, some of them co-localized with MAP2 immunoreactivity. MCT2 immunoreactivity was noted in astrocytic cell bodies from week 19 and spread subsequently to the astrocyte end-feet in contact with blood vessels. MCTs immunoreactivities were most marked in the subplate and deep cortical plate, where the most differentiated neurons were located. Our findings suggest that monocarboxylate trafficking between vessels (MCT1), astrocytes (MCT2) and some postmitotic neurons (MCT1) could develop gradually toward 20 gestational weeks (g.w.). These data suggest that lactate or other monocarboxylates could represent a significant energy source for the human visual cortex at this early stage.