1,537 research outputs found

    Critical illness-induced bone loss is related to deficient autophagy and histone hypomethylation

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    BACKGROUND Survivors of critical illness are at increased risk of fractures. This may be due to increased osteoclast formation during critical illness, leading to trabecular bone loss. Such bone loss has also been observed in Paget's disease, and has been related to deficient autophagy. Deficient autophagy has also been documented in vital organs and skeletal muscle of critically ill patients. The objective of this study was to investigate whether deficient autophagy can be linked to critical illness-induced bone loss. METHODS Osteoclasts grown in vitro and their precursor cells isolated from peripheral blood of critically ill patients and from matched healthy volunteers were analysed for the expression of autophagy genes (SQSTM1, Atg3 and Atg7), and proteins (p62, Atg-5, and microtubule-associated protein light chain 3-II (LC3-II)) and for autophagy and epigenetic signalling factors via PCR arrays and were treated with the autophagy inducer rapamycin. The effect of rapamycin was also investigated at the tissue level in an in vivo rabbit model of critical illness. RESULTS Many more osteoclasts formed in vitro from the blood precursor cells isolated from critically ill patients, which accumulated p62, and displayed reduced expression of Atg5, Atg7, and LC3-II compared to healthy controls, suggesting deficient autophagy, whilst addition of rapamycin reduced osteoclast formation. PCR arrays revealed a down-regulation of histone methyltransferases coupled with an up-regulation of negative regulators of autophagy. Critically ill rabbits displayed a reduction in trabecular and cortical bone, which was rescued with rapamycin. CONCLUSIONS Deficient autophagy in osteoclasts and their blood precursor cells at least partially explained aberrant osteoclast formation during critical illness and was linked to global histone hypomethylation. Treatment with the autophagy activator Rapamycin reduced patient osteoclast formation in vitro and reduced the amount of bone loss in critically ill rabbits in vivo. These findings may help to develop novel therapeutic targets to prevent critical illness-induced bone loss

    Economic Benefits of Intensive Insulin Therapy in Critically Ill Patients: The Targeted Insulin Therapy to Improve Hospital Outcomes (TRIUMPH) Project

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    OBJECTIVEā€”The purpose of this study was to analyze the economic outcomes of a clinical program implemented to achieve strict glycemic control with intensive insulin therapy in patients admitted to the intensive care unit (ICU)

    Clinical response correlates with 4-week postinjection ustekinumab concentrations in patients with moderate-to-severe psoriasis

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    Background: Costā€effective use of biologicals is important. As drug concentrations have been linked to clinical outcomes, monitoring drug concentrations is a valuable tool to guide clinical decisionā€making. A concentrationā€“response relationship for ustekinumab at trough is uncertain owing to the contradictory results reported. Objectives: To investigate the relationship between 4ā€week postinjection ustekinumab concentrations and clinical response in patients with psoriasis. Methods: Fortyā€nine patients with moderateā€toā€severe psoriasis treated with 45 mg or 90 mg ustekinumab every 12 weeks for ā‰„ 16 weeks were included. Ustekinumab serum concentrations and antiā€ustekinumab antibodies were measured at week 4 after injection and disease severity was assessed by Psoriasis Area and Severity Index (PASI). Results: At week 4 after injection, a significantly negative correlation was observed between ustekinumab concentrations and absolute PASI score up to 5Ā·9 Ī¼g mLāˆ’1 (Ļ = ā€“0Ā·357, P = 0Ā·032). Ustekinumab concentrations were higher in optimal responders (PASI ā‰¤ 2) than in suboptimal responders (PASI > 2) (4Ā·0 vs 2Ā·8 Ī¼g mLāˆ’1, P = 0Ā·036). The ustekinumab concentration threshold associated with optimal response was determined to be 3Ā·6 Ī¼g mLāˆ’1 (area under the curve 0Ā·71, sensitivity 86%, specificity 63%). Only one patient (2%) had antiā€ustekinumab antibodies. Psoriatic arthritis was identified as an independent predictor of higher PASI scores and higher ustekinumab concentrations (P = 0Ā·003 and P = 0Ā·048, respectively). Conclusions: A concentrationā€“response relationship at week 4 after injection was observed for patients with psoriasis treated with ustekinumab. Monitoring 4ā€week postinjection ustekinumab concentrations could timely identify underexposed patients who might benefit from treatment optimization
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