Overview
This clinical trial is an open-label, randomized controlled study designed to evaluate the efficacyand safety of salt substitutes in protecting renal function after kidney tumor surgery, aiming toprovide dietary renal protection strategies for postoperative kidney tumor patients. lt will alsoassess the feasibility of salt substitute intervention. The primary research questions are:
- Does a salt substitute diet significantly improve estimated glomerular filtration rate (eGFR) compared to a regular salt diet in postoperative kidney tumor patients?
- What is the safety profile of salt substitute intervention in postoperative kidney tumor patients?
- What is the compliance rate among postoperative kidney tumor patients using saltsubstitutes?
- ls the salt substitute intervention feasible?
Researchers will compare the intervention group (salt substitute diet) with the control group (regular salt diet) to determine whether salt substitutes effectively improve postoperative eGFR in kidney tumor patients.
Participants will be required to:
- Consume salt substitutes or regular salt daily while strictly adhering to WHO-recommendedsalt intake levels for 1 year.
- Undergo scheduled baseline assessments at 1, 3, 6, and 12 months post-surgery, with 24-hoururine tests at months 1 and 6 to evaluate compliance.
- Receive regular monitoring of blood electrolytes, eGFR, and other renal function indicators.
- Document any adverse events or health status changes during the study period.
Description
Patients after kidney tumor surgery (radical nephrectomy or partial nephrectomy) experience acute loss of functional nephrons, causing compensatory hyperfunction in remaining nephrons under overload conditions. This manifests as elevated glomerular filtration rate (hyperfiltration), increased plasma flow (hyperperfusion), and heightened capillary transmembrane pressure (hypertension), collectively termed the "three-high glomerular state," significantly increasing risks of Acute Kidney Injury(AKI) and long-term Chronic Kidney Disease(CKD). Chinese populations consume salt far exceeding WHO recommendations, with proven associations to hypertension, stroke, cardiovascular disease, kidney disease, and gastric cancer. High salt intake elevates CKD risk through two pathways: chronic high salt consumption induces hypertension (a key CKD risk factor), and activates renal renin-angiotensin-aldosterone system (RAAS), promoting inflammation, fibrosis, and oxidative stress-induced kidney damage-exacerbating the postoperative "three-high state" and further increasing CKD risk. Additionally, Asian populations frequently carry salt-sensitive genetic variants, where both salt sensitivity and high intake cause mineralocorticoid receptor overactivation, independently amplifying CKD susceptibility. Salt substitutes (potassium-enriched low-sodium salt, primarily NaCl and KCl) reduce sodium content versus regular salt, potentially improving renal hemodynamics by lowering sodium load and supplementing potassium to delay renal function decline. Recent multicenter RCTs and meta-analyses confirm cardiovascular benefits: the SSaSS trial demonstrated 13% reduced cardiovascular event risk with potassium-enriched salt (25% KCl), preventing ~460,000 cardiovascular deaths annually via blood pressure control and ~743,000 non-fatal cardiovascular events (including ~120,000 CKD cases) without significant hyperkalemia-related adverse events. The DECIDESalt trial showed significant blood pressure reductions (SBP: -7.1 mmHg; DBP: -1.9 mmHg) and lower cardiovascular risk with salt substitutes versus regular salt, with post hoc analysis indicating reduced hypertension incidence in normotensive individuals without inducing hypotension. Meta-analyses highlight amplified benefits in high-risk populations and Asian diets via sodium-potassium homeostasis and vascular improvement, with clinically insignificant mild potassium elevation confirming efficacy and safety. Despite these cardiovascular benefits, salt substitutes' renal safety and efficacy in post-nephrectomy patients remain unreported. Thus, our team proposes this open-label randomized controlled trial to evaluate salt substitutes for postoperative renal protection in kidney tumor patients, establishing evidence-based dietary strategies for renal function preservation.
Therefore, we plan to provide study participants with free salt substitute and standardized salt containers (5g) for one year. Participants will receive a one-month supply of free salt substitute upon hospital discharge. Adherence will be assessed at the one-month follow-up visit via 24-hour urine collection. Based on adherence confirmation, the next two-month supply of free salt substitute will be dispensed, continuing until the three-month follow-up.
This process will be repeated for subsequent phases: Adherence will be evaluated at discharge and each follow-up visit before dispensing the next phase's supply of free salt substitute.To enhance adherence during the extended interval between the 6-month and 12-month postoperative follow-ups: A telemedicine follow-up will be conducted at 9 months post-operation.Adherence will be assessed using a self-administered questionnaire, and the salt substitute will be remotely dispensed upon confirmation.
Non-adherence protocol:
First occurrence: Participants will receive intensive education reinforcing the importance of salt substitute use to improve adherence.
Recurrence: Participants will be discontinued from the study.
Eligibility
Inclusion Criteria:
- Participants must meet all of the following criteria:
- Voluntary participation with signed informed consent from both the primary participant and all cohabiting family members, with commitment to study procedures and follow-up;
- Age ≥18 years at enrollment (when signing informed consent), any gender;
- Diagnosed kidney tumor patients who underwent radical nephrectomy or partial nephrectomy (no restrictions on surgical approach);
- Preoperative eGFR >60 ml/min/1.73m² (calculated by CKD-EPI equation);
- Serum potassium <4.8 mmol/L;
- Predominantly home-based dietary habits (>90% meals prepared at home, assessed via self-report);
- Normal contralateral renal function at screening;
- Normal cardiopulmonary and hepatic function:
Exclusion Criteria:
- Participants will be excluded if they meet any of the following:
- Participant or cohabiting family members currently using potassium-sparing diuretics or potassium supplements, or prior use of salt substitutes;
- Post-discharge eGFR <45 ml/min/1.73m² without significant fluctuation;
- Comorbid chronic kidney diseases (e.g., diabetic nephropathy, lupus nephritis);
- Preoperative history of urinary tract obstruction;
- Cohabiting family member(s) with CKD (eGFR <45 ml/min/1.73m²);
- Planned postoperative nephrotoxic medications (e.g., anti-neoplastic agents, immunotherapy);
- Uncontrolled diabetes (HbA1c ≥12%);
- Uncontrolled hypertension (seated SBP ≥180 mmHg or DBP ≥110 mmHg), symptomatic hypotension (SBP <90 mmHg), or clinically evident hypovolemia;
- Preoperative proteinuria (≥1+ on dipstick);
- Severe cardiovascular disease (NYHA Class III-IV), gastrointestinal obstruction, or hyperkalemia history;
- BMI <18.5 kg/m² or >30 kg/m²;
- Participation in another clinical trial ≤30 days before randomization or concurrently;
- Communication barriers or anticipated non-adherence;
- Structural/functional urological abnormalities (e.g., duplicated kidneys, polycystic kidneys, renal artery stenosis, stones, BPH) or indwelling catheters;
- Prior radiotherapy/ablation/surgery on the contralateral kidney;
- Life expectancy <6 months (e.g., metastatic renal carcinoma).