Study DesignRetrospective Single-center propensity score-matched cohort study.ObjectiveAdjacent segment disease remains a major cause of revision surgery after multilevel lumbosacral fusion, and muscl Show more
Study DesignRetrospective Single-center propensity score-matched cohort study.ObjectiveAdjacent segment disease remains a major cause of revision surgery after multilevel lumbosacral fusion, and muscle-preserving approaches may help reduce this risk. This study compared clinical and radiographic outcomes between a muscle-preserving fusion combining standalone anterior plus lateral lumbar interbody fusion (A + LLIF) vs circumferential lateral plus posterior lumbar interbody fusion (L + PLIF).MethodsPatients who underwent multilevel lumbosacral fusion (2016-2023) with either A + LLIF or L + PLIF were included. L + PLIF patients with contraindications to standalone A + LLIF were excluded. Propensity score matching, based on age, BMI, PI-LL mismatch and stenosis severity, yielded 90 1:1-matched patients. The primary outcome was revision surgery. Secondary outcomes included spinopelvic alignment, cage subsidence, and perioperative metrics.ResultsBaseline characteristics were comparable between groups (mean age 57 ± 10 years; median fusion levels: 2 [range 2-4]). The 5-year cumulative incidence of revision surgery was significantly lower with A + LLIF (1/45 events; 2.2%) than with L + PLIF (14/45 events; 31.1%; Show less
Bladder outlet obstruction (BOO) induces significant organ remodeling, leading to lower urinary tract symptoms accompanied by urodynamic changes in bladder function. Here, we report mRNA and miRNA tra Show more
Bladder outlet obstruction (BOO) induces significant organ remodeling, leading to lower urinary tract symptoms accompanied by urodynamic changes in bladder function. Here, we report mRNA and miRNA transcriptome sequencing of bladder samples from human patients with different urodynamically defined states of BOO. Patients' miRNA and mRNA expression profiles correlated with urodynamic findings. Validation of RNA sequencing results in an independent patient cohort identified combinations of 3 mRNAs (NRXN3, BMP7, UPK1A) and 3 miRNAs (miR-103a-3p, miR-10a-5p, miR-199a-3p) sufficient to discriminate between bladder functional states. All BOO patients shared cytokine and immune response pathways, TGF-β and NO signaling pathways, and hypertrophic PI3K/AKT signaling pathways. AP-1 and NFkB were dominant transcription factors, and TNF-α was the top upstream regulator. Integrated miRNA-mRNA expression analysis identified pathways and molecules targeted by differentially expressed miRNAs. Molecular changes in BOO suggest an increasing involvement of miRNAs in the control of bladder function from the overactive to underactive/acontractile states. Show less