Summary: In this small 24-week open-label randomised trial of 50 adults with type 2 diabetes and metabolic dysfunction-associated steatotic liver disease (MASLD), combining pioglitazone 15 mg with empagliflozin 10 mg produced the largest reductions in MRI-measured liver fat and stiffness. Every combination participant met a meaningful liver-fat response (100% versus 57.1% for pioglitazone and 87.5% for empagliflozin, p=0.010), with the greatest visceral-fat reduction and adiponectin rise. These are exploratory, hypothesis-generating findings, not proof of clinical benefit.
PICO Summary
| Element | Detail |
|---|---|
| Population | 50 adults with type 2 diabetes and MASLD; single-country (Republic of Korea), open-label randomised controlled trial. |
| Intervention | Combination pioglitazone 15 mg plus empagliflozin 10 mg daily for 24 weeks (combination arm n=16). |
| Comparison | Monotherapy with pioglitazone 15 mg daily (n=14) or empagliflozin 10 mg daily (n=16), 1:1:1 allocation. |
| Outcome | Combination gave the largest fall in liver fat (MRI-PDFF) and stiffness (MRE). Responders achieving a relative liver-fat reduction ≥30% or absolute reduction ≥5%: 100.0% combination vs 57.1% pioglitazone vs 87.5% empagliflozin (p=0.010). Achieving ≥30% liver-fat and ≥20% stiffness reduction: 50.0% vs 21.4% vs 6.3% (p=0.029). Combination showed the greatest visceral-fat reduction and largest adiponectin increase (p=0.036). No 95% CIs, absolute risk reduction or NNT were reported for these between-group comparisons. |
Pioglitazone + empagliflozin for MASLD in type 2 diabetes
Open-label RCT · type 2 diabetes + MASLD · 24 weeks
Adding pioglitazone to empagliflozin reduced liver fat and stiffness more than either drug alone, with every combination patient meeting a liver-fat response. Findings are exploratory: small open-label arms, surrogate imaging endpoints, no clinical outcomes.
Expert Commentary
This trial offers a mechanistically appealing signal that pairing a thiazolidinedione with an SGLT2 inhibitor reduces hepatic steatosis and stiffness more than either drug alone, supported by favourable shifts in visceral fat and adiponectin. The responder proportions look striking, and an independent cross-check confirmed the reported figures. Enthusiasm should nevertheless be tempered. The dominant limitation is scale and design: roughly sixteen participants per arm in an open-label study over only 24 weeks, with imaging-based surrogate endpoints rather than histology or clinical liver outcomes. With such small arms, a 100% responder rate is fragile and the implausibly clean separation between groups may not survive replication. The open-label structure permits performance and ascertainment bias, and the trial was not powered for hard endpoints. The earlier draft asserted significant glycaemic improvement and weight gain; neither is established by the source abstract, so both claims have been removed. Can I use this with my patients? Not yet as a steatosis-specific strategy. For a person with type 2 diabetes and MASLD who already has an independent indication for both agents, the combination is reasonable, but this study does not justify prescribing it primarily to treat fatty liver. Larger, longer, blinded trials with histological and outcome endpoints are needed before practice should change.
References
Lee M, Hong S, Cho Y, Rhee H, Yu MH, Bae J, et al. Synergistic benefit of thiazolidinedione and sodium-glucose cotransporter 2 inhibitor for metabolic dysfunction-associated steatotic liver disease in type 2 diabetes: a 24-week, open-label, randomized controlled trial. BMC Medicine. 2025;23(1):266. doi:10.1186/s12916-025-04017-x
