Changes in hemoglobin and albumin concentration during nocturnal home hemodialysis

Agar, John; Pierratos, Andreas

doi:10.1111/j.1542-4758.2007.00184.x

Cited by 4 publications

(1 citation statement)

References 14 publications

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“…High baseline comorbidity appears to blunt the nutritional benefits of quotidian hemodialysis, and this may explain the differences in serum albumin between patients on short and nocturnal quotidian hemodialysis [23]. A relative hemodilution may be responsible for lower albumin levels at the end of the nocturnal hemodialysis sessions [51].…”

Section: Nutritionmentioning

confidence: 99%

Intensified hemodialysis regimens: neglected treatment options for children and adolescents

et al. 2008

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During recent years, the importance of intensified dialysis regimens has gathered increasing interest, especially after the Hemodialysis (HEMO) Study Group reported that a higher dose of thrice-weekly hemodialysis failed to improve clinical outcomes. Long nocturnal hemodialysis (three to six times per week) or short daily hemodialysis are the currently used forms of intensified dialysis. There is substantial evidence for cardiovascular and quality-of-life improvements as well as financial benefits with intensified hemodialysis. Preliminary experience with daily hemodialysis and hemodiafiltration in children has been reported. Given the continuing shortage of donor organs for kidney transplantation, the increasing incidence of end-stage renal disease (ESRD) and recognition of the deleterious effects of long-lasting ESRD, growth retardation, and poor social rehabilitation, more intensified dialysis regimens are a much-needed therapeutical option in both adults and children.

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Section: Nutritionmentioning

confidence: 99%

Intensified hemodialysis regimens: neglected treatment options for children and adolescents

et al. 2008

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Home hemodialysis in Australia and New Zealand: Practical problems and solutions

Agar

2008

Hemodialysis International

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Home hemodialysis, as practiced in Australia and New Zealand, offers patients the return of self-control and self-esteem. It also allows reconnection with family, friends and (re)employment. Though there are emotional and time-related "costs" with home hemodialysis, these center on training time, commitment and patient or family stresses and, if carefully managed and properly resourced, can be overcome for most home-suitable patients. As we believe many center-based hemodialysis patients are home-suitable and that home care is severely under-utilized, assessment techniques to maximize uptake are examined. While patient dropout from home care relates more to staff attitudes than to true home-failure, dropout is minimized by ensuring the patient and not a carer takes full dialysis responsibility with the carer acting as a supporter and not the facilitator. Installation of home equipment is simple and cheap, the financial costs of home hemodialysis being substantially less than those of facility care where salary and infrastructure costs far exceed training, equipment, installation and maintenance costs at home. Home monitoring is not routinely required especially with longer, more frequent regimens-but effective 24-hour on-call nurse and technician cover is essential. Intravenous drug self-administration at home is safe and effective, reducing the need for hospital visits to a 2-3 monthly minimum. The debilitating effects of facility care cannot be over-emphasized while the liberating psychology of a well-supported hemodialysis program is truly satisfying for patient and staff alike.

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Using water wisely: New, affordable, and essential water conservation practices for facility and home hemodialysis

Agar

Simmonds

Knight

et al. 2009

Hemodialysis International

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Despite a global focus on resource conservation, most hemodialysis (HD) services still wastefully or ignorantly discard reverse osmosis (R/O) "reject water" (RW) to the sewer. However, an R/O system is producing the highly purified water necessary for dialysis, it rejects any remaining dissolved salts from water already prefiltered through charcoal and sand filters in a high-volume effluent known as RW. Although the RW generated by most R/O systems lies well within globally accepted potable water criteria, it is legally "unacceptable" for drinking. Consequently, despite being extremely high-grade gray water, under current dialysis practices, it is thoughtlessly "lost-to-drain." Most current HD service designs neither specify nor routinely include RW-saving methodology, despite its simplicity and affordability. Since 2006, we have operated several locally designed, simple, cheap, and effective RW collection and distribution systems in our in-center, satellite, and home HD services. All our RW water is now recycled for gray-water use in our hospital, in the community, and at home, a practice that is widely appreciated by our local health service and our community and is an acknowledged lead example of scarce resource conservation. Reject water has sustained local sporting facilities and gardens previously threatened by indefinite closure under our regional endemic local drought conditions. As global water resources come under increasing pressure, we believe that a far more responsible attitude to RW recycling and conservation should be mandated for all new and existing HD services, regardless of country or region.

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Changes in hemoglobin and albumin concentration during nocturnal home hemodialysis

Cited by 4 publications

References 14 publications

Intensified hemodialysis regimens: neglected treatment options for children and adolescents

Intensified hemodialysis regimens: neglected treatment options for children and adolescents

Home hemodialysis in Australia and New Zealand: Practical problems and solutions

Using water wisely: New, affordable, and essential water conservation practices for facility and home hemodialysis

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