Design-based practice: a new perspective for social work.

Evidence-based practice (EBP) has emerged as an alternative to traditional social work practice and has ignited a new round in the decades-old debate about the relationship between knowledge and practice in the field. This article identifies several limitations inherent in the EBP perspective and argues that it would be unfortunate if EBP were to become the new paradigm for social work practice and education. It also presents a new perspective for social work called design-based practice (DBP), which is based on the work of Herbert Simon and Mary Parker Follett, and compares this perspective with EBP and authority-based practice. DBP rests on the belief that knowledge is derived from experience and interactions between practitioners and clients and that professional practice should be primarily concerned with "how things ought to be."

Premature aging in uremia.

Guanidinosuccinic acid is an aberrant metabolite isolated 40 years ago in the blood and urine of uremic subjects and a suspect in the toxicity associated with renal failure. It plays a minor role in the bleeding diathesis of uremia, contributes to the methyl group deficiency of dialysis patients, and is a factor in the premature atherosclerosis of end stage renal disease through the induction of hyperhomocysteinemia. As a major player, however, in the diversity and severity of uremic symptoms, it is a disappointment. Recently its source has been identified. It results from the superoxidation of argininosuccinic acid, which leads, also, to the production of gamma glutamic semialdehyde, an advanced glycation end product (AGE), which normally results from from the Maillard reaction, the non-enzymatic browning of protein. AGEs stimulate cross-linkages in protein that lead ultimately to loss of function, phagocytosis, and removal, and are important elements in the premature aging characteristic of renal disease, and diabetes.

Methyl group deficiency and guanidino production in uremia.

Guanidinosuccinic acid (GSA) is one of the earliest uremic toxins isolated and its toxicity identified. Its metabolic origins have remained obscure until recently when a series of studies showed that it arose from the oxidation of argininosuccinic acid (ASA) by free radicals. The stimulus for this oxidation, occurring optimally in the presence of the failed kidney, is the rising level of urea which, through enzyme inhibition, results in a decline in hepatic levels of the semi-essential amino acid, arginine. It is further noted that concentrations of GSA in both serum and urine decline sharply in animals and humans exposed to the essential amino acid, methionine. In this review the argument is advanced that uremics suffer from a defective ability to generate methyl groups due to anorexia, dietary restrictions and renal protein leakage. This leads to the accumulation of homocysteine, a substance known to produce vascular damage. Even in healthy subjects intake of choline together with methionine is insufficient to satisfy total metabolic requirements for methyl groups. In end-stage renal disease, therefore, protein restriction contributes to the build-up of toxins in uremia. Replacement using specific amino acid mixtures should be directed toward identified deficiencies and adequacy monitored by following serum levels of the related toxins, in this case GSA and homocysteine.