Glomerular hyperfiltration is a characteristic functional abnormality in insulin-dependent diabetes mellitus and occurs in the large majority of young Type 1 diabetic patients. Hyperfiltration is hypothesized to be a precursor of intraglomerular hypertension leading to albuminuria. Glomerular filtration rate (GFR) then falls progressively in parallel with a further rise in albuminuria which may lead, in the long run, to end-stage renal failure. Experimental and clinical studies have shown that glomerular hyperfiltration can occur also in hypertension. However, whether hyperfiltration occurs also in early stages of hyperglycaemia and high blood pressure, such as in pre-diabetes and pre-hypertension, is not well known. In this issue of the Journal, Okada and Coll studied a large Japanese population showing that in pre-diabetic and pre-hypertensive subjects, the prevalence of hyperfiltration is proportional to the level of glucose and blood pressure, respectively. One main problem with the diagnosis of hyperfiltration is that no generally accepted definition is available due to the strong inverse correlation of GFR with age. To overcome this limitation, Okada et al. calculated the upper normal limit of GFR in a large healthy Japanese sample divided into 10-year age groups, providing ageand sex-specific reference values. For hyperfiltration to develop, the concomitant action of a variety of pathogenetic factors are needed including increased body mass index, hyperinsulinaemia, activation of the sympathetic nervous system, hyperleptinaemia, increased oxidative stress, inflammatory cytokines, etc. Another mechanism accounting for increased GFR in obese persons is increased NaCl intake. In addition, a significant role of increased Na reabsorption in the pathophysiology of glomerular hyperfiltration in obesity and hypertension has been described. Pharmacological agents with action on the renin–angiotensin system are effective in reducing glomerular hypertension which accounts for their efficacy in preventing progression of microalbuminuria in diabetes and hypertension. According to current guidelines, only low GFR and microalbuminuria or proteinuria should be considered as markers of renal dysfunction. Due to the strong association between hyperfiltration and risk of microalbuminuria found in diabetes and hypertension, hyperfiltration should be regarded as a precursor of nephropathy in these clinical conditions. More extensive use of markers of early organ damage may help clinicians to reach a more timely decision about the initiation of treatment and thus delay cardiovascular complications. Hyperglycaemia and high blood pressure in people with hyperfiltration should be treated earlier to prevent the progression of renal dysfunction to chronic kidney disease. Increased GFR, also called hyperfiltration, is a proposed mechanism for renal injury in several clinical conditions. According to the Brenner theory [1], low nephron number at birth explains why some individuals are prone to developing progressive renal damage later in life when other risk factors become operative. At the single-nephron level, hyperfiltration is hypothesized to be a precursor of intraglomerular hypertension leading to albuminuria. Increased glomerular capillary hydraulic pressure may be due to changes in systemic arterial pressure and/or changes in efferent and afferent arteriolar resistances. In the absence of therapeutic interventions, GFR then falls progressively in parallel with a further rise in albuminuria which may lead, in the long run, to end-stage renal failure (Figure 1). Human models of renal injury are in keeping with this pathogenetic view. Glomerular hyperfiltration has been observed in patients with unilateral renal agenesis [2], congenitally reduced nephron number [3] and acquired reduction in renal mass [4]. These individuals are prone to developing proteinuria early in life in association with glomerular sclerosis. It is suggested that this model of renal injury may apply to the early diabetic or hypertensive kidney.
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