Fulladosa Xavier, Moreso Francesc, Narváez Jose A, Grinyó Josep M, Serón Daniel
Nephrology Department, Hospital Universitari de Bellvitge, Barcelona, Spain.
J Am Soc Nephrol. 2003 Oct;14(10):2662-8. doi: 10.1097/01.asn.0000088025.33462.b0.
Glomerular number (N(g)) is considered a major determinant of renal function and outcome. In the dog, it has been shown that Ng can be estimated with reasonable precision in vivo by means of a renal biopsy and magnetic resonance imaging (MRI). Thus, this method was applied to study anatomoclinical correlations in stable human renal transplants. Thirty-nine stable renal transplants were included. A protocol renal allograft biopsy was done at 4 mo. Biopsies were evaluated according to Banff criteria. Glomerular volume fraction (Vv(glom/cortex)) was measured by means of a point-counting method, and mean glomerular volume (V(g)) was estimated by means of Weibel and Gomez (V(g)-W&G) and maximal profile area (V(g)-MPA) methods. MRI was used to estimate renal cortical volume (V(cortex)). N(g) was calculated as (Vv(glom/cortex) x V(cortex))/V(g). GFR was estimated by the inulin clearance. Ten age-matched donor biopsies served as controls for V(g). Histologic diagnosis was as follows: normal (n = 20), borderline (n = 7), acute rejection (n = 1), and chronic allograft nephropathy (n = 11). Vv(glom/cortex) was 3.4 +/- 1.1%, V(cortex) was 167 +/- 46 cm(3), V(g)-W&G was 3.2 +/- 1.2 x 10(6) micro m(3), and V(g)-MPA was 3.3 +/- 1.0 x 10(6) micro m(3). V(g)-W&G in donor and recipient biopsies was not different (3.6 +/- 1.1 versus 3.2 +/- 1.2 x 10(6) micro m(3)). Total glomerular number estimated by means of V(g)-W&G (N(g)-W&G) was 0.73 +/- 0.33 x 10(6) and by V(g)-MPA (N(g)-MPA) was 0.74 +/- 0.31 x 10(6). A positive correlation between GFR and N(g)-W&G (r = 0.47, P = 0.002) was observed. Furthermore, the older the donor, the higher V(g)-W&G (r = 0.37, P = 0.01) and the lower N(g)-W&G (r = -0.40, P = 0.01). Total glomerular number can be estimated in stable renal allografts by means of a renal biopsy and MRI. Our data show that N(g) depends on donor age and positively correlates with GFR.
肾小球数量(N(g))被认为是肾功能及预后的主要决定因素。在犬类中,已表明通过肾活检和磁共振成像(MRI)可在体内以合理的精度估算N(g)。因此,该方法被用于研究稳定的人肾移植中的解剖临床相关性。纳入了39例稳定的肾移植。在4个月时进行了方案规定的同种异体肾移植活检。活检根据班夫标准进行评估。通过点计数法测量肾小球体积分数(Vv(glom/cortex)),并通过韦贝尔和戈麦斯方法(V(g)-W&G)以及最大轮廓面积法(V(g)-MPA)估算平均肾小球体积(V(g))。使用MRI估算肾皮质体积(V(cortex))。N(g)计算为(Vv(glom/cortex)×V(cortex))/V(g)。通过菊粉清除率估算肾小球滤过率(GFR)。十例年龄匹配的供体活检用作V(g)的对照。组织学诊断如下:正常(n = 20)、临界(n = 7)、急性排斥(n = 1)和慢性同种异体肾病(n = 11)。Vv(glom/cortex)为3.4±1.1%,V(cortex)为167±46 cm³,V(g)-W&G为3.2±1.2×10⁶μm³,V(g)-MPA为3.3±1.0×10⁶μm³。供体和受体活检中的V(g)-W&G无差异(3.6±1.1对3.2±1.2×10⁶μm³)。通过V(g)-W&G估算的总肾小球数量(N(g)-W&G)为0.73±0.33×10⁶,通过V(g)-MPA估算的为0.74±0.31×10⁶。观察到GFR与N(g)-W&G之间存在正相关(r = 0.47,P = 0.002)。此外,供体年龄越大,V(g)-W&G越高(r = 0.37,P = 0.01),N(g)-W&G越低(r = -0.40,P = 0.01)。通过肾活检和MRI可估算稳定的同种异体肾移植中的总肾小球数量。我们的数据表明N(g)取决于供体年龄且与GFR呈正相关。
