[Remote patient monitoring in dialysis patients: the "change of pace" for home dialysis.]

Lockdown and self-isolation are to date the only solution to limit the spread of recent outbreak of coronavirus disease (CoViD-19), highlighting the great advantage of home dialysis in a patient otherwise forced to travel from / to the dialysis center to receive this "life-saving" treatment. Indeed, to prevent spreading of CoViD-19 infection among extremely fragile dialysis patients, as well as among dialysis workers, hemodialysis (HD) centers are adopting specific procedures ("dedicated" dialysis facilities, portable osmosis, etc.) with a great economic and organizational commitment. Peritoneal dialysis (PD) represents a type of home dialysis therapy not yet adequately implemented to date, in spite of safe and simple practice, as well as similar dialytic efficiency vs in-center hemodialysis. Remote patient monitoring (RPM) systems have been developed in automated PD (APD) cyclers in order to improve the acceptance of this dialysis method, to increase the compliance to the prescribed therapy and to control treatment adequacy. In this review we assess the potential advantages of RPM in APD, that are the chance for patients to acquire greater independence and safety in the home treatment, to allow better access to care for residents in remote areas, faster resolution of problems, reduction in hospitalizations and mortality rates, as well as time and cost saving for both the patient and the staff. The use of medical devices (sphygmomanometer, glucometer, balance, etc.), connected by wireless to the clinician's portal, might also allow a wider diffusion of incremental dialysis, an integrated therapy that combines conservative management of ESKD patients with a soft dialysis based on the residual kidney function and symptomatology, with potential prognosis and economic benefits. Although the majority of the studies are small and observational, a wider use of RPM systems is desirable to broaden the spread of home dialysis, as we learnt from Coronavirus pandemic.