Renal parenchymal volume analysis: Clinical and research applications

IF 1.6 Q3 UROLOGY & NEPHROLOGY

BJUI compass Pub Date : 2025-03-19 DOI:10.1002/bco2.70013

Carlos Munoz-Lopez, Kieran Lewis, Nityam Rathi, Eran Maina, Akira Kazama, Anne Wong, Angelica Bartholomew, Worapat Attawettayanon, Yunlin Ye, Zhiling Zhang, Wen Dong, Rebecca A. Campbell, Nicholas Heller, Erick Remer, Christopher Weight, Steven C. Campbell

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Abstract

Background and Objectives

In most patients, the renal parenchymal volumes in each kidney directly correlate with function and can be used as a proxy to determine split renal function (SRF). This simple principle forms the basis for parenchymal volume analysis (PVA) with semiautomated software, which can be leveraged to predict SRF and new-baseline glomerular filtration rate (NBGFR) following nephrectomy. PVA was originally used to evaluate renal transplantation donors and has replaced nuclear renal scans (NRS) in this domain. PVA has subsequently been explored for the management of patients with kidney cancer for whom difficult decisions about radical versus partial nephrectomy can be influenced by accurate prediction of NBGFR. Our objective is to present a comprehensive review of the applications of PVA in urology including their clinical and research implications.

Methods

Key articles utilizing renal PVA to improve clinical care and facilitate urologic research were reviewed with special emphasis on take-home points of clinical relevance and their contributions to progress in the field.

Results

There have been considerable advances in renal PVA over the past 15 years, which is now established as a reference standard for the prediction of functional outcomes after renal surgery. PVA provides improved accuracy when compared to NRS-based estimates or non-SRF-based algorithms. PVA can be performed in minutes using routine preoperative cross-sectional imaging and can be readily applied at the point of care. Additionally, PVA has important research applications, enabling the precise study of the determinants of functional recovery after partial nephrectomy, which can affect surgical approaches to this procedure.

Conclusions

Despite the wide availability of PVA, primarily for use in renal transplantation, it has not been widely implemented for other urologic purposes at most centres. Our hope is that this narrative review will increase PVA utilization in urology and facilitate further progress in the field.

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肾实质体积分析：临床和研究应用。

背景和目的：在大多数患者中，每个肾脏的肾实质体积与功能直接相关，可作为确定分流肾功能（SRF）的替代指标。这一简单的原理构成了使用半自动软件进行肾实质体积分析（PVA）的基础，该软件可用于预测肾切除术后的SRF和新基线肾小球滤过率（NBGFR）。PVA 最初用于评估肾移植供体，并在这一领域取代了核素肾扫描（NRS）。随后，PVA 又被用于肾癌患者的治疗，因为准确预测 NBGFR 会影响肾癌患者做出根治性肾切除还是部分切除的艰难决定。我们的目的是全面回顾 PVA 在泌尿外科的应用，包括其临床和研究意义：方法：对利用肾脏 PVA 改善临床护理和促进泌尿科研究的主要文章进行了综述，特别强调了与临床相关的要点及其对该领域进展的贡献：过去 15 年来，肾脏 PVA 取得了长足的进步，现已成为预测肾脏手术后功能结果的参考标准。与基于 NRS 的估计或非基于 SRF 的算法相比，PVA 的准确性更高。使用常规术前横断面成像，PVA 可在几分钟内完成，并可随时应用于护理点。此外，PVA 还具有重要的研究用途，可以精确研究肾部分切除术后功能恢复的决定因素，从而影响该手术的手术方法：尽管 PVA 主要用于肾移植，但在大多数中心尚未广泛用于其他泌尿科用途。我们希望这篇叙述性综述能提高 PVA 在泌尿外科的使用率，促进该领域的进一步发展。

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