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This is a pivotal, interventional, prospective, single-arm, open-label, multi-site clinical investigation intended to support FDA clearance of the study device based on the safety and efficacy of the device in cannulating arteriovenous fistulas (AVFs) for hemodialysis procedures.
This research is being done to better understand the impact of the use of a specific physical activity training program (GH Method) in dialysis/kidney disease patients.
Older patients with end- stage kidney disease (ESKD) are at very high risk for functional impairment. Kidney transplantation (KT) has the potential to ameliorate the detrimental effects of ESKD on physical activity and functional status. However, KT alone may not meet the full extent of this potential, particularly for older or more impaired adults. In fact, activity declines immediately post-KT and fails to return to expected levels even 5 years post-KT. Older patients waitlisted for KT (most of whom are on dialysis) are therefore reliant on their pre-KT levels of exercise, which are also predictive of post-KT mortality. "Prehabilitation" has been used in other surgical populations to minimize functional loss, and a structured exercise program may be beneficial in the pre- KT setting. However, few waitlisted patients are able to participate in typical exercise interventions due to barriers such as severe fatigue. Older patients have additional barriers such as further mobility impairment and requiring substantial caregiver support. Therefore for older living donor kidney transplant candidates, it is necessary to address issues such as specifics of coaching, timing, and importantly, incorporate caregiver participation. The overall objective of this proposal is to adapt a previously developed 8- week, home- based, structured exercise program among older (≥50 years) dialysis patients awaiting living donor KT, with a focus on caregiver involvement. The investigators will trial the exercise program as compared to usual care. The investigators will then pilot the refined intervention in a total of 72 patient-caregiver dyads, 48 of whom will undergo the proposed intervention (24 with caregiver participation, 24 without). The primary outcomes for the pilot will be change in physical performance and activity from baseline to after the intervention, along with measurements of exploratory quality of life outcomes. In addition, the investigators will measure these same outcomes at 3- months post KT to evaluate for a durable effect of the intervention. An additional post-transplantation outcome of interest will be number of days hospitalized within 3 months of transplantation.
Within few years the peritoneal membrane of adult peritoneal dialysis (PD) patients undergoes substantial morphological transformation, including progressive fibrosis, vasculopathy and neoangiogenesis. Ultrafiltration capacity steadily declines and ultimately results in PD failure. In children, peritoneal biopsies demonstrating PD associated alterations have not yet been obtained. They, however, should be particularly informative, since secondary tissue and vascular pathology related to ageing or diabetes is absent. An international, prospective peritoneal membrane biopsy study in children on PD will therefore be performed. Biopsies will be obtained at time of PD catheter insertion, on occasion of intercurrent abdominal surgery (e.g. hernia repair, catheter exchange) and at time of renal transplantation. Quantitative histomorphometry and tissue protein expression analyses will be correlated with time integrated PD treatment modalities and functional characteristics as well as inflammatory and cardiovascular comorbidity surrogate parameter. Blood will be obtained during clinical routine sampling. Biopsies will be obtained during clinically indicated operations, without substantially increasing operation time and associated surgical risks. The detailed histomorphometry of the PD membrane will give additional information, potentially impacting on the individual PD regime. 3/2018: The analyses of the pediatric PD biopsy demonstrated early and major transformation of the peritoneal membrane with neutral pH low GDP fluids, and significant vasculopathy already in children with CKD stage 5, further progressing with PD. The underlying mechanisms are partly understood, only. In view of these major findings and the numerous open questions, collection of biosamples will be continued in children and also in adult PD patients. The following questions will be addressed: Molecular counterparts of peritoneal semi-permeability, solute and water transport (beyond AQP1), pathomechanisms and molecular and functional impact of peritoneal transformation with low and high GDP fluids, and the respective pathomechanisms and molecular and functional impact of vascular disease in CKD and with different PD fluids. The impact of renal transplantation following PD will be assessed in a subgroup of patients with tenckhoff catheter removal several weeks after transplantation and a functioning graft.