Patiëntspecifieke 3D-hartmodellen bij congenitale hartchirurgie: 18 minuten korter opereren en minder complicaties (meta-analyse)
Systematische review en meta-analyse van 32 vergelijkende studies (n=1.842) naar het effect van patiëntspecifieke 3D-hartmodellen — geprint of virtueel — op chirurgische planning en uitkomsten in congenitale hartchirurgie, vergeleken met conventionele beeldvorming. Het gebruik van 3D-modellen was geassocieerd met: vaker aanpassing van het operatieplan (RR 1,42; 95%-BI 1,21-1,67), kortere operatieduur (gemiddeld -18,4 minuten), minder postoperatieve complicaties (RR 0,74), minder her-operaties (RR 0,52), kortere opname (-1,8 dagen) en hogere zelfgerapporteerde zekerheid van de chirurg (SMD 0,88). De zekerheid van bewijs varieerde van laag tot matig wegens niet-experimentele studieopzet en heterogeniteit. 3D-modellen lijken bruikbaar bij complexe congenitale anomalieën; bevestiging in grootschalige, methodologisch sterkere studies is wenselijk.
Abstract (original)
<sec><st>Background</st> <p>Congenital heart disease surgery includes intricate structures that are perhaps hard to completely understand by traditional two-dimensional shapes. Individualised, centre-based three-dimensional (3D) heart models may enhance structural imaging and surgical preparation, while data on their medical effect continue to be unpredictable and uneven. This systematic review and meta-analysis assessed the impact of 3D heart simulations on surgical preparation and outcomes in congenital cardiac disease.</p> </sec> <sec><st>Objective</st> <p>To assess the successful outcomes of patient-centred 3D cardiac simulations in medical preparation, intraoperative execution and surgical results in patients experiencing operation for congenital cardiac disease.</p> </sec> <sec><st>Objective</st> <p>To evaluate the impact of patient-specific 3D heart models on surgical planning precision and preoperative outcomes in congenital heart disease surgery.</p> </sec> <sec><st>Methods</st> <p>A systematic review and meta-analysis were performed in accordance with Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) 2020 standards and prospectively registered in PROSPERO (CRD42024211985). PubMed, Embase, Scopus and Cochrane CENTRAL were searched through March 2025 for comparative studies evaluating 3D-printed or virtual heart models versus conventional imaging. Outcomes were harmonised and pooled as risk ratios (RRs), mean differences (MDs) or standardised MDs (SMDs) with 95% CIs using random-effects models.</p> </sec> <sec><st>Results</st> <p>32 studies (n=1842) met inclusion criteria. The use of 3D models was associated with more frequent surgical plan modification (RR 1.42; 95% CI 1.21 to 1.67), reduced operative time (MD –18.4 min; 95% CI –27.6 to –9.2), lower postoperative complications (RR 0.74; 95% CI 0.56 to 0.98) and reduced re-operation (RR 0.52; 95% CI 0.31 to 0.86). Hospital stay was shortened (MD: 1.8 days; 95% CI –3.0 to –0.6), and surgeon confidence improved (SMD 0.88; 95% CI 0.60 to 1.15). The confidence of indication extended from modest to small because of non-experimental research and variability.</p> </sec> <sec><st>Conclusion</st> <p>Individualised-centred 3D heart stimulation improves structural imaging and medical preparation in congenital cardiac disease, chiefly for intricate lacerations and can increase preoperative competence, while statistics for conclusive diagnosis results continue to be restricted and mainly experiential. Upcoming potential, large-scale investigator-led research with consistent result events are required to ratify their medical success.</p> </sec>
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