Nymandneville8767
Atherosclerotic renovascular disease (ARVD) reduces tissue perfusion and eventually leads to loss of kidney function with limited therapeutic options. Here we describe results of Phase 1a escalating dose clinical trial of autologous mesenchymal stem cell infusion for ARVD. Thirty-nine patients with ARVD were studied on two occasions separated by three months. Autologous adipose-derived mesenchymal stem cells were infused through the renal artery in 21 patients at three different dose levels (1, 2.5 and 5.0 × 105 cells/kg) in seven patients each. We measured renal blood flow, glomerular filtration rate (GFR) (iothalamate and estimated GFR), renal vein cytokine levels, blood pressure, and tissue oxygenation before and three months after stem cell delivery. These indices were compared to those of 18 patients with ARVD matched for age, kidney function and blood pressure receiving medical therapy alone that underwent an identical study protocol. Cultured mesenchymal stem cells were also studied in vitro. For the entire stem cell treated-cohort, mean renal blood flow in the treated stenotic kidney significantly increased after stem cell infusion from (164 to 190 ml/min). Hypoxia, renal vein inflammatory cytokines, and angiogenic biomarkers significantly decreased following stem cell infusion. Mean systolic blood pressure significantly fell (144 to 136 mmHg) and the mean two-kidney GFR (Iothalamate) modestly but significantly increased from (53 to 56 ml/min). Changes in GFR and blood pressure were largest in the high dose stem cell treated individuals. No such changes were observed in the cohort receiving medical treatment alone. Thus, our data demonstrate the potential for autologous mesenchymal stem cell to increase blood flow, GFR and attenuate inflammatory injury in post-stenotic kidneys. The observation that some effects are dose-dependent and related to in-vitro properties of mesenchymal stem cell may direct efforts to maximize potential therapeutic efficacy. Primary hyperoxaluria is a rare monogenic disorder characterized by excessive hepatic production of oxalate leading to recurrent nephrolithiasis, nephrocalcinosis, and progressive kidney damage. Most patients with primary hyperoxaluria are diagnosed after clinical suspicion based on symptoms. Since some patients are detected by family screening following detection of an affected family member, we compared the clinical phenotype of these two groups. Patients with primary hyperoxaluria types 1, 2, and 3 enrolled in the Rare Kidney Stone Consortium Primary Hyperoxaluria Registry were retrospectively analyzed following capture of clinical and laboratory results in the Registry. Among 495 patients with primary hyperoxaluria, 47 were detected by family screening. After excluding 150 patients with end stage kidney disease at diagnosis, 300 clinical suspicion and 45 family screening individuals remained. Compared to patients with clinical suspicion, those identified by family screening had significantly fewer stones at diagnosis (mean 1.2 vs. 3.6), although initial symptoms occurred at a similar age (median age 6.1 vs. 7.6 years). Urinary oxalate did not differ between these groups. The estimated glomerular filtration rate at diagnosis and its decline over time were similar for the two groups. Altogether, five of 45 in family screening and 67 of 300 of clinical suspicion individuals developed end stage kidney disease at last follow-up. Thus, patients with primary hyperoxaluria identified through family screening have significant disease despite no outward clinical suspicion at diagnosis. Since promising novel treatments are emerging, genetic screening of family members is warranted because they are at significant risk for disease progression. Tofacitinib cost OBJECTIVE The outcomes of subclavian artery revascularization (SAR) have been examined extensively in the setting of atherosclerotic occlusive disease but have been poorly characterized in the setting of thoracic endovascular aortic repair (TEVAR). As trials for branched thoracic endovascular stent grafts materialize, the outcomes of the subclavian artery branched prosthesis will need to be compared with TEVAR with SAR by carotid-subclavian bypass or subclavian transposition. METHODS A database of 1516 patients undergoing TEVAR from 2000 to 2015 was queried. Of those undergoing TEVAR, 19% (282 patients) also underwent SAR. Patient demographics, TEVAR indication, 30-day morbidity and mortality, and midterm patency and survival were analyzed. RESULTS During the study period, 282 patients underwent 288 SARs in the setting of TEVAR. A total of 269 (93%) carotid-subclavian bypasses and 19 (7%) subclavian artery transpositions were performed; 76% of the SARs occurred before TEVAR, 14% occurred concurrently with TEVated with low morbidity, durable long-term patency, and infrequent need for reintervention. OBJECTIVE Vascular conduit is essential for arterial reconstruction for a number of conditions, including trauma and atherosclerotic occlusive disease. We have developed a tissue-engineered human acellular vessel (HAV) that can be manufactured, stored on site at hospitals, and be immediately available for arterial vascular reconstruction. Although the HAV is acellular when implanted, extensive preclinical and clinical testing has demonstrated that the HAV subsequently repopulates with the recipient's own vascular cells. We report a first-in-man clinical experience using the HAV for arterial reconstruction in patients with symptomatic peripheral arterial disease. METHODS HAVs were manufactured using human vascular smooth muscle cells grown on a biodegradable scaffold. After the establishment of adequate cell growth and extracellular matrix deposition, the vessels were decellularized to remove human cellular antigens. Manufactured vessels were implanted in 20 patients with symptomatic peripheral arterial diseasterial bypass surgery. Early clinical experience with these vessels, in the arterial position, suggest that they are safe, have acceptable patency, a low incidence of infection, and do not require the harvest of autologous vein or any cells from the recipient. Histologic examination of tissue biopsies revealed vascular remodeling and repopulation by host cells. This first-in-man arterial bypass study supports the continued development of human tissue engineered blood vessels for arterial reconstruction, and potential future expansion to clinical indications including vascular trauma and repair of other size-appropriate peripheral arteries.