# Efficacy and safety of Jinlida granules as an adjuvant treatment for diabetic nephropathy: a systematic review and meta-analysis

**Authors:** Bo Dai, Yanxu Chen, Yang Xiao, Jinying Chen, Zexin Zhu, Peng Zhang, Jieyu Zhang, Jian Sun, Pengjie Bao, Zheng Nan, Qi Zhang

PMC · DOI: 10.3389/fendo.2026.1740623 · Frontiers in Endocrinology · 2026-02-03

## TL;DR

Jinlida Granules may help improve kidney function and reduce diabetes-related markers when used as an additional treatment for diabetic nephropathy.

## Contribution

This study provides a systematic review and meta-analysis of Jinlida Granules as an adjunct treatment for diabetic nephropathy.

## Key findings

- Jinlida Granules improve clinical efficacy and reduce serum creatinine and blood urea nitrogen levels in diabetic nephropathy patients.
- The treatment also lowers urine protein, glucose, and inflammatory markers, suggesting benefits for renal and metabolic health.
- No significant difference in adverse reactions was found between Jinlida Granules and control groups.

## Abstract

Jinlida Granules (JLD), a patented traditional Chinese medicine, has demonstrated significant efficacy when used as an adjunct treatment for DN. This meta-analysis systematically evaluated the efficacy, safety, and renoprotective effects of JLD as adjunctive treatment in DN patients.

We systematically searched the Chinese literature databases (China National Knowledge Infrastructure, Wanfang Data, and China Science and Technology Journal Database) and English literature databases (PubMed, Web of Science, Cochrane Library, and Embase) from inception to September 2025 and included relevant studies published in Chinese and English after screening according to predefined inclusion and exclusion criteria. Meta-analysis and bias assessment of the included studies were conducted using Stata 16 and Review Manager 5.4.1 software. The quality of included studies was evaluated using the risk-of-bias tools outlined in the Cochrane Handbook.

This study analyzed data from 13 randomized controlled trials (RCTs) with 1,333 participants, including 658 participants in the control group and 675 participants in the treatment group. As an adjunctive therapy for DN, JLD treatment enhances clinical efficacy rate [RR = 1.30 (95% CI: 1.21, 1.39), I² =27%] and reduces the levels of serum creatinine (SCr) [SMD = -2.01 (95% CI: -2.33, -1.69), I² =80.0%], blood urea nitrogen (BUN) [SMD = -0.79 (95% CI: -1.07, -0.52), I² = 80%], 24-h urine protein test (24h-UTP) [SMD = -1.44 (95% CI: -1.88, -1.00), I² =89%], urinary albumin excretion rates (UAER) [SMD = -2.14 (95% CI: -2.97, -1.30), I² =92%], fasting plasma glucose (FPG) [SMD = -0.63 (95% CI: -1.01, -0.24), I² =83%], 2-h plasma glucose (2hPG) [SMD = -0.71 (95% CI: -1.20, 0.23), I² =89%], hemoglobin A1c (HbA1c) [SMD = -0.95 (95% CI: -1.55, -0.35), I² =92%], total cholesterol (TC) [SMD = -0.91 (95% CI: -1.75, -0.08), I² =92%], triglycerides (TG) [SMD = -3.07 (95% CI: -6.06, -0.08), I² =99%], vascular endothelial growth factor (VEGF) [SMD = -1.50 (95% CI: -2.53, -0.48), I² =95%], IGF-1 [SMD = -0.59 (95% CI: -0.97, -0.21), I² =74%], IL-6 [SMD = -1.77 (95% CI: -2.46, -1.09), I² =81%], TNF-α [SMD = -1.75 (95% CI: -2.37, -1.13), I² =88%], and high sensitivity C-reactive protein (hs-CRP) [SMD = -2.48 (95% CI: -2.81, -2.15), I² =54%]. For adverse reactions, the pooled risk ratio was 0.71 (95% CI: 0.42, 1.20, I² = 0%) in the JLD adjunct therapy group relative to controls. The 95% CI crossing 1 indicated no statistically significant difference in adverse reaction rates, and no reliable conclusion regarding the safety superiority of JLD could be drawn.

JLD as an adjunctive therapy enhances renal function, glucose and lipid metabolism, inflammatory regulation, and vascular health in patients with DN. Meta-analysis revealed no statistically significant differences in safety outcomes, indicating that safety remains a matter of debate.

https://www.crd.york.ac.uk/PROSPERO/view/CRD420251148725, identifier CRD420251148725

## Full-text entities

- **Genes:** GLP1R (glucagon like peptide 1 receptor) [NCBI Gene 2740] {aka GLP-1, GLP-1-R, GLP-1R}, IGF1 (insulin like growth factor 1) [NCBI Gene 3479] {aka IGF, IGF-I, IGFI, MGF}, INS (insulin) [NCBI Gene 3630] {aka IDDM, IDDM1, IDDM2, ILPR, IRDN, MODY10}, TNF (tumor necrosis factor) [NCBI Gene 7124] {aka DIF, IMD127, TNF-alpha, TNFA, TNFSF2, TNLG1F}, AKT1 (AKT serine/threonine kinase 1) [NCBI Gene 207] {aka AKT, PKB, PKB-ALPHA, PRKBA, RAC, RAC-ALPHA}, VEGFA (vascular endothelial growth factor A) [NCBI Gene 7422] {aka L-VEGF, MVCD1, VEGF, VPF}, NFKB1 (nuclear factor kappa B subunit 1) [NCBI Gene 4790] {aka CVID12, EBP-1, KBF1, NF-kB, NF-kB1, NF-kappa-B1}, TXNIP (thioredoxin interacting protein) [NCBI Gene 10628] {aka ARRDC6, EST01027, HHCPA78, THIF, VDUP1}, PRKCA (protein kinase C alpha) [NCBI Gene 5578] {aka AAG6, PKC-alpha, PKCA, PKCI+/-, PKCalpha}, NFE2L2 (NFE2 like bZIP transcription factor 2) [NCBI Gene 4780] {aka IMDDHH, NRF2, Nrf-2}, ACSL4 (acyl-CoA synthetase long chain family member 4) [NCBI Gene 2182] {aka ACS4, FACL4, LACS4, MRX63, MRX68, XLID63}, CTNNB1 (catenin beta 1) [NCBI Gene 1499] {aka CTNNB, EVR7, MRD19, NEDSDV, armadillo}, TGFB1 (transforming growth factor beta 1) [NCBI Gene 7040] {aka CAEND1, CED, DPD1, IBDIMDE, LAP, TGF-beta1}, ALB (albumin) [NCBI Gene 213] {aka FDAHT, HSA, PRO0883, PRO0903, PRO1341}, NLRP3 (NLR family pyrin domain containing 3) [NCBI Gene 114548] {aka AGTAVPRL, AII, AVP, C1orf7, CIAS1, CLR1.1}, MTOR (mechanistic target of rapamycin kinase) [NCBI Gene 2475] {aka FRAP, FRAP1, FRAP2, RAFT1, RAPT1, SKS}, CRP (C-reactive protein) [NCBI Gene 1401] {aka PTX1}, IL6 (interleukin 6) [NCBI Gene 3569] {aka BSF-2, BSF2, CDF, HGF, HSF, IFN-beta-2}, FN1 (fibronectin 1) [NCBI Gene 2335] {aka CIG, ED-B, FINC, FN, FNZ, GFND}, NFKBIA (NFKB inhibitor alpha) [NCBI Gene 4792] {aka EDAID2, IKBA, MAD-3, NFKBI}, RENBP (renin binding protein) [NCBI Gene 5973] {aka RBP, RNBP}, PIK3CB (phosphatidylinositol-4,5-bisphosphate 3-kinase catalytic subunit beta) [NCBI Gene 5291] {aka P110BETA, PI3K, PI3KBETA, PIK3C1}, EGFR (epidermal growth factor receptor) [NCBI Gene 1956] {aka ERBB, ERBB1, ERRP, HER1, NISBD2, NNCIS}, RELA (RELA proto-oncogene, NF-kB subunit) [NCBI Gene 5970] {aka AIF3BL3, CMCU, NFKB3, p65}
- **Diseases:** pancreatic and hepatic morphological abnormalities (MESH:D010195), Flatulence (MESH:D005414), DM (MESH:D003920), renal insufficiency (MESH:D051437), Renal fibrosis (MESH:D005355), Hyperglycemia (MESH:D006943), Inflammatory (MESH:D007249), headache (MESH:D006261), hepatic impairment (MESH:D008107), hypoglycemic reactions (MESH:C000721848), proteinuria (MESH:D011507), Metabolic dysregulation (MESH:D021081), hypotensive agents (MESH:D007022), renal (MESH:D006030), Metabolic disorders (MESH:D008659), diarrhea (MESH:D003967), Nausea (MESH:D009325), rash (MESH:D005076), BD (MESH:D001528), insulin resistance (MESH:D007333), dizziness (MESH:D004244), renal tubular irritation (MESH:D000141), toxicity (MESH:D064420), ESRD (MESH:D007676), adipocyte hypertrophy (MESH:D006984), gastrointestinal discomfort (MESH:D005767), endocrine disorder (MESH:D004700), orthostatic hypotension (MESH:D007024), JLD's toxicity (MESH:C531691), organ toxicity (MESH:D019965), hypoglycemia (MESH:D007003), deficiency (MESH:D007153), disorders of glucose and lipid metabolism (MESH:D052439), deaths (MESH:D003643), glomerulosclerosis (MESH:D005921), JLD (MESH:C562873), DN (MESH:D003928), liver enzyme abnormalities (MESH:D056486), organ damage (MESH:D000092124), renal impairment (MESH:D007674), abdominal distension (MESH:D000007), gastric discomfort (MESH:D013272)
- **Chemicals:** TG (MESH:D014280), p-cresol sulfate (MESH:C408690), Polysaccharides (MESH:D011134), ginsenoside Rg2 (MESH:C026474), salt (MESH:D012492), aminoguanidine (MESH:C004479), blood glucose (MESH:D001786), cholesterol (MESH:D002784), sulfonylureas (MESH:D013453), metformin (MESH:D008687), Tanshinone IIA (MESH:C021751), AGEs (MESH:D017127), water (MESH:D014867), urea (MESH:D014508), Icariin (MESH:C056599), lignan (MESH:D017705), indoxyl sulfate (MESH:D007200), Timosaponin B-II (MESH:C523027), alloxan (MESH:D000496), 2hPG (-), saponins (MESH:D012503), reactive oxygen species (MESH:D017382), creatinine (MESH:D003404), Glucose (MESH:D005947), 2,3,5,4'-tetrahydroxystilbene-2-O-beta-D-glucoside (MESH:C093026), UTP (MESH:D014544), astragaloside IV (MESH:C052064), fibrates (MESH:D058607), Lipid (MESH:D008055), urea nitrogen (MESH:C530477), thiazolidinediones (MESH:D045162)
- **Species:** Epimedium brevicornu (species) [taxon 253618], Astragalus membranaceus (species) [taxon 649199], Pueraria montana var. thomsonii (varietas) [taxon 174648], Wolfiporia cocos (species) [taxon 81056], Pleuropterus multiflorus (fo ti, species) [taxon 76025], Coptis chinensis (species) [taxon 261450], Eupatorium fortunei (species) [taxon 330892], Panax ginseng (Asiatic ginseng, species) [taxon 4054], Sophora flavescens (species) [taxon 49840], Lycium chinense (Chinese boxthorn, species) [taxon 112883], Homo sapiens (human, species) [taxon 9606], Atractylodes (genus) [taxon 41485], Polygonatum sibiricum (species) [taxon 261423], Cornus officinalis (Japanese cornel, species) [taxon 16906], Rattus norvegicus (brown rat, species) [taxon 10116], Rehmannia glutinosa (Chinese foxglove, species) [taxon 99300], Anemarrhena asphodeloides (species) [taxon 59045], Ophiopogon japonicus (species) [taxon 100506], Salvia miltiorrhiza (Chinese salvia, species) [taxon 226208], Perilla frutescens (beefsteak-mint, species) [taxon 48386]
- **Cell lines:** MPC5 — Mus musculus (Mouse), Conditionally immortalized cell line (CVCL_AS87)

## Full text

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## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12946738/full.md

## References

65 references — full list in the complete paper: https://tomesphere.com/paper/PMC12946738/full.md

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Source: https://tomesphere.com/paper/PMC12946738