Cerebral cortex mechanism of resting-state functional near-infrared spectroscopy in the treatment of underactive bladder with intravesical electrical stimulation
10.3760/cma.j.cn112330-20240813-00364
- VernacularTitle:静息态近红外光谱脑功能成像对膀胱腔内电刺激治疗膀胱活动低下症的大脑皮层机制研究
- Author:
Han DENG
1
;
Limin LIAO
;
Xing LI
;
Juan WU
;
Li WAN
;
Yixi LIU
Author Information
1. 中国康复研究中心北京博爱医院泌尿外科/泌尿与盆底康复中心 中国康复科学所,北京 100068
- Keywords:
Neurogenic;
Intravesical electrical stimulation;
Underactive bladder;
Functional near-infrared spectroscopy
- From:
Chinese Journal of Urology
2024;45(9):664-670
- CountryChina
- Language:Chinese
-
Abstract:
Objective:To explore the cerebral cortical mechanism of intravesical electrical stimulation (IVES) on neurogenic underactive bladder (UAB).Methods:A prospective study was conducted on healthy subjects (HS) recruited in our center and patients with neurogenic UAB treated with IVES from March 2022 to June 2023 were included. HS inclusion criteria: females aged 18-60 years; the 72-hour voiding diary was normal; the urine volume was 200-400 ml, and the free urine flow rate > 20 ml/s. HS exclusion criteria: urinary and neurological related disorders; major diseases of all systems of the body; cognitive dysfunction. Inclusion criteria for UAB patients: females aged 18-60 years; neurogenic UAB due to incomplete spinal cord injury (grade D or E) with a duration of > 3 months; previous routine use of intermittent catheterization, or indication of intermittent catheterization (residual urine accounts for > 40% of functional bladder capacity). Exclusion criteria for UAB patients: decreased bladder compliance on urodynamic examination; symptomatic urinary tract infection; concomitant hydronephrosis, vesicoureteral reflux or renal insufficiency (serum creatinine greater than 1.5 times of the normal upper limit); bladder tumors; neurological related diseases; pregnant or trying to conceive; a pacemaker or defibrillator has been implanted in the body. At baseline, the 24-hour voiding diary, residual urine, voiding efficiency, first sensation of bladder filling volume and American Urological Association Symptom Index Quality of Life scores(AUA-SI-QOL)were recorded, and the resting state-functional near-infrared spectroscopy scans of the prefrontal cortex was completed in the bladder emptying state and the strong desire to void stage. The UAB group was re-evaluated after completing 20 IVES treatments. Improvement in residual urine > 50% was defined as success of IVES treatment. The differences in functional connectivity in the prefrontal lobe between the successful UAB group before and after IVES and between the successful UAB group and the HS group were compared.Results:A total of 16 HS and 18 UAB patients were included. Eleven UAB patients were successfully treated by IVES, and 7 UAB patients were failed. Compared with pre-treatment, the post-treatment residual urine volume [90.0(50.0, 120.0) ml vs. 210.0(110.0, 300.0) ml], 24-h intermittent catheterization [3.0(2.0, 4.0) times vs. 4.0(3.0, 4.0) times], first sensation of bladder filling volume [275.0(245.0, 280.0) ml vs. 295.0 (290.0, 315.0) ml] and AUA-SI-QOL score [2.0 (2.0, 3.0) vs. 4.0 (4.0, 4.0)] of the successful UAB group were significantly lower ( P<0.05), and the voiding efficiency [75.0% (69.0%, 85.0%) vs. 42.0% (35.0%, 77.0%)] was significantly higher ( P< 0.05). Before IVES, the successful UAB group compared with the HS group, internal prefrontal functional connectivity was significantly attenuated in the bladder emptying state involving 5 brain regions: bilateral dorsolateral prefrontal cortex (DLPFC), bilateral frontopolar area, and left pars triangularis. And in the strong desire to void stage significantly attenuated involving 4 brain regions: bilateral DLPFC and bilateral frontopolar area. In the successful UAB group after IVES compared with the HS group, internal prefrontal functional connectivity was significantly attenuated in the bladder emptying state involving 2 brain regions: left pars triangularis and left DLPFC. And in the strong desire to void stage involving 4 brain regions: left DLPFC, right frontopolar area, the left pars opercularis Broca's area, and the left pars triangularis. After IVES in the successful UAB group compared with pretreatment, prefrontal internal functional connectivity was significantly enhanced in the bladder emptying state involving 4 brain regions: bilateral DLPFC and bilateral frontopolar area, and in the strong desire to void stage involving 4 brain regions: bilateral DLPFC, bilateral frontopolar area. Conclusions:Significant enhancement of functional connectivity within the prefrontal lobes (bilateral DLPFC and bilateral frontopolar area) may be the cortical mechanism of IVES for neurogenic UAB.
