In vitro grafting of hepatic spheroids and organoids on a microfluidic vascular bed

With recent progress in modeling liver organogenesis and regeneration, the lack of vasculature is becoming the bottleneck in progressing our ability to model human hepatic tissues in vitro. Here, we introduce a platform for routine grafting of liver and other tissues on an in vitro grown microvascular bed. The platform consists of 64 microfluidic chips patterned underneath a 384-well microtiter plate. Each chip allows the formation of a microvascular bed between two main lateral vessels by inducing angiogenesis. Chips consist of an open-top microfluidic chamber, which enables addition of a target tissue by manual or robotic pipetting. Upon grafting a liver microtissue, the microvascular bed undergoes anastomosis, resulting in a stable, perfusable vascular network. Interactions with vasculature were found in spheroids and organoids upon 7 days of co-culture with space of Disse-like architecture in between hepatocytes and endothelium. Veno-occlusive disease was induced by azathioprine exposure, leading to impeded perfusion of the vascularized spheroid. The platform holds the potential to replace animals with an in vitro alternative for routine grafting of spheroids, organoids, or (patient-derived) explants

In vitro grafting of hepatic spheroids and organoids on a microfluidic vascular bed

With recent progress in modeling liver organogenesis and regeneration, the lack of vasculature is becoming the bottleneck in progressing our ability to model human hepatic tissues in vitro. Here, we introduce a platform for routine grafting of liver and other tissues on an in vitro grown microvascular bed. The platform consists of 64 microfluidic chips patterned underneath a 384-well microtiter plate. Each chip allows the formation of a microvascular bed between two main lateral vessels by inducing angiogenesis. Chips consist of an open-top microfluidic chamber, which enables addition of a target tissue by manual or robotic pipetting. Upon grafting a liver microtissue, the microvascular bed undergoes anastomosis, resulting in a stable, perfusable vascular network. Interactions with vasculature were found in spheroids and organoids upon 7 days of co-culture with space of Disse-like architecture in between hepatocytes and endothelium. Veno-occlusive disease was induced by azathioprine exposure, leading to impeded perfusion of the vascularized spheroid. The platform holds the potential to replace animals with an in vitro alternative for routine grafting of spheroids, organoids, or (patient-derived) explants

Long-term survival in amyotrophic lateral sclerosis: A population-based study

Objective To determine the long-term survival in amyotrophic lateral sclerosis (ALS) and identify predictors of prolonged survival in a population-based cohort of newly diagnosed patients. Methods An incident cohort from a population-based registry during the years 1998 through 2002 in Lombardy, Italy was followed until death or to February 28, 2013. Age, sex, date of onset of symptoms, site of onset, date of diagnosis, and El Escorial diagnostic category were collected. Survival was assessed using Kaplan-Meier curves. Cox proportional hazards function was used to identify independent prognostic predictors. Standardized mortality ratios (SMRs) were used to assess the 5-year and 10-year excess mortality of ALS patients. Results Included were 280 men and 203 women aged 18 to 93 years. Spinal onset ALS was present in 312 cases (64.6%). Definite ALS was diagnosed in 213 cases (44.1%), probable ALS in 130 (26.9%), possible ALS in 93 (19.3%), and suspected ALS in 47 (9.7%). The cumulative time-dependent survival at 1, 5, and 10 years from diagnosis was 76.2%, 23.4%, and 11.8%, respectively. Independent predictors included younger age, the diagnosis of possible/suspected ALS, spinal onset, and symptoms having started >12 months previously at diagnosis. SMR was 9.4 at 5 years and 5.4 at 10 years. SMR at 10 years was higher until age 75 year, predominating in women, and became nonsignificant for males thereafter. Interpretation The outcome in ALS varies with phenotype. Longer survival is predicted by younger age, spinal onset, male gender, and suspected ALS. After age 75 years, 10-year survival in men with ALS is similar to the general population

Is firstly diagnosed ALS really ALS? Results of a population-based study with long-term follow-up

OBJECTIVE: To revise the first diagnosis of amyotrophic lateral sclerosis (ALS) in patients from a well-defined population. METHODS: Patients diagnosed with ALS in the years 1998-2002 and resident of Lombardy Region, Northern Italy were followed until death or April 30 2016 to assess long-term survival. During follow-up, the caring neurologists were asked to confirm the first diagnosis. Revised diagnoses were classified as confirmed and unconfirmed motor neuron disease (MND) with further specification where available. The two groups were compared for age, sex, disease duration at diagnosis, site of onset, and El Escorial category. Survival with predictors were also compared. RESULTS: Included were 280 men and 203 women aged 18-93 years. During follow-up, 25 cases (5.2%) received a diagnosis different from MND. Diseases of spinal roots and peripheral nerves and vascular encephalopathy predominated. Patients with definite (OR 0.15; 95%CI 0.04-0.52) and probable (OR 0.15; 95%CI 0.04-0.62) ALS were least likely to have an unconfirmed MND diagnosis. At end of follow-up, 2.2% of patients with confirmed MND and 44.0% of patients with unconfirmed MND were reported alive (HR 0.14; 95%CI 0.08-0.25). CONCLUSIONS: At the time of a first diagnosis of ALS, the possibility still exists that another, less severe clinical condition, is present