Xiao-Wen Tseng scite author profile

Interstitial cystitis (IC) is a chronic inflammatory disease characterized by bladder pain and increased urinary frequency. Although the C57BL/6J (B6) and FVB/NJ (FVB) mouse strains are commonly used as animal models for studies involving the urinary system, few reports have compared their lower urinary tract anatomy, despite the importance of such data. Our study aimed to characterize bladder function changes in FVB and B6 mouse strains with lipopolysaccharide (LPS)-induced IC, to understand mouse model-based bladder research. The bladder function parameters were measured by cystometrogram. Histological assay was examined by hematoxylin and eosin stain, Masson’s trichrome stain, and immunofluorescence staining. Results indicated that the two strains in the control group exhibited different bladder structures and functions, with significant anatomical differences, including a larger bladder size in the FVB than in the B6 strain. Furthermore, cystometry tests revealed differences in bladder function pressure. LPS-treated B6 mice presented significant changes in peak pressure, with decreased intercontraction intervals; these results were similar to symptoms of IC in humans. Each strain displayed distinct characteristics, emphasizing the care required in choosing the appropriate strain for bladder-model studies. The results suggested that the B6 mouse strain is more suitable for IC models.

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Intravesical Instillation of Norketamine, a Ketamine Metabolite, and Induced Bladder Functional Changes in Rats

Yeh

Chen

Tseng

et al. 2021

Toxics

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This study aimed to determine the mechanism of ketamine-induced cystitis without metabolism. A total of 24 adult male Sprague-Dawley rats were separated into control, ketamine, and norketamine groups. To induce cystitis, rats in the ketamine and norketamine groups were treated with intravesical instillation of ketamine and norketamine by mini-osmotic pump, which was placed in subcutaneous space, daily for 24 h for 4 weeks. After 4 weeks, all rats were subjected to bladder functional tests. The bladders were collected for histological and pathological evaluation. Compared to control, ketamine treatment demonstrated an increase in the bladder weight, high bladder/body coefficient, contractive pressure, voiding volume, collagen deposition, reduced smooth muscle content, damaged glycosaminoglycan layer, and low bladder compliance. Compared to ketamine, norketamine treatment showed more severe collagen deposition, smooth muscle loss, damaged glycosaminoglycan layer, and increased residual urine. Intravesical administration of ketamine and norketamine induced cystitis with different urodynamic characteristics. Norketamine treatment caused more severe bladder dysfunction than ketamine treatment. Direct treatment of the bladder with norketamine induced symptoms more consistent with those of bladder outlet obstruction than ketamine cystitis. Detailed studies of cellular mechanisms are required to determine the pathogenesis of ketamine cystitis.

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New insights into CFTR modulation in reproduction: testicular microenvironment imbalance leads to over-activated caspase signalling in spermatogenesis and adversely affects fertility

Chen

Chiang

Chung

et al. 2022

Preprint

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Cystic fibrosis transmembrane conductance regulator (CFTR) is a prominent chloride channel that governs mucous secretion in multiple organs, including the reproductive tract. According to earlier reports, defective CFTR results in infertility due to congenital bilateral absence of the vas deferens (CBAVD). However, obstruction in the vas deferens is not the only reason CFTR deficiency causes male infertility. The mechanism underlying the loss of mature sperm owing to CFTR deficiency remains elusive. This study aimed to assess the role of CFTR in spermatogenesis, for which 6- and 8-week-old male mice with Cftr+/+, Cftr+/-, and Cftr-/- genotypes were chosen. Furthermore, we assessed the correlation between CFTR deficiency and delayed development of the reproductive system, anomalous apoptosis activation in spermatogenesis, and ionic alterations of the testis lumen. The results demonstrated that the growth of Cftr-/- mice were delayed, with underweight reproductive organs and mild hypospermatogenesis. CFTR depletion destabilizes spermatogenesis by producing abnormal sperm and triggers activation of the Bax/Bcl-2 ratio in Cftr-/- and Cftr+/-mice, causing caspase-mediated irreversible intrinsic apoptosis. Stage specific apoptosis in germ cells targeted the sexually mature mice, and the testis microenvironment affirmed that ion concentrations influence sperm capacitation. The blood pH determines apoptosis induction, as CFTR is a bicarbonate transporter. In conclusion, Cftr-/- mice were infertile because CFTR deficiency generated an ionic imbalance in the testis lumen, leading to Bax expression and Bcl-2 blockage, which triggered caspases or further activation of voltage-dependent anion-selective channel 1 (VDAC1). Cumulatively, cytochrome C was released due to altered mitochondrial membrane potential. Eventually, anomalous up-regulated apoptosis activation affected spermatogenesis, thus rendering the Cftr-/- male mice infertile. The results supplied new insights into CFTR modulation in reproduction: an imbalanced testicular microenvironment due to CFTR deficiency affects spermatogenesis and fertility in mice through the overactivation of spermatocyte caspase signalling, thus driving us to focus on updated treatments for CFTR deficiency-caused infertility.

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Intracavernous injection of platelet‐rich plasma reverses erectile dysfunction of chronic cavernous nerve degeneration through reduction of prostate hyperplasia evidence from an aging‐induced erectile dysfunction rat model

et al. 2023

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Age‐induced erectile dysfunction (ED) is a convoluted medical condition, and restoring erectile function (EF) under geriatric conditions is highly complicated. Platelet‐rich plasma (PRP) treatment is an inexpensive cell‐based therapeutic strategy. We have aimed to restore EF in aged‐ED rats with PRP as a therapeutic tool. Male rats were grouped into aged and young according to age. The young rats were considered as normal control (NC) and treated with saline. Aged were further divided into 2 groups and treated with intracavernous (IC) PRP and saline. Treatment was scheduled at the 9th and 10th week for NC and 41th and 42th week for aged‐ED rats, with EF analysis scheduled on the 12th week for NC and 44th week for aged‐ED rats, respectively. Erectile response, immunofluorescence staining, and electron microscopic analyses were performed. IC PRP treatment effectively reduced prostate hyperplasia (PH). EF response indicated a significant increase in crucial EF parameters in PRP‐treated aged‐ED rats. Histological evidence denoted a rigid and restored development of tunica adventitia of the dorsal artery, decreased vacuolation of the dorsal penile nerve, and structural expansion of the epineurium. Masson's trichrome and immunostaining results affirmed an elevated expression of α‐smooth muscle actin (α‐SMA) in the corpus cavernosum (CC). Ultrastructure findings revealed that PRP effectively rejuvenated degenerating nerves, preserved endothelium and adherent junctions of corporal smooth muscle, and restored the axonal scaffolds by upregulating neurofilament‐H (NF‐H) expression. Finally, PRP enhanced neural stability by enhancing the axonal remyelination processes in aged‐ED rats. Hence, PRP treatment was proven to restore EF in aged‐ED rats, which was considered a safe, novel, cost‐effective, and hassle‐free strategy for EF restoration in geriatric patients.

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Specific Impacts of Ketamine on Bladder Dysfunction and Associated Histological Alterations in Rats—A Time Course Validation through Transmission Electron Microscopy

Chung

Rajneesh

Chen

et al. 2022

IJMS

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This study explored the specific effects of ketamine on bladder function followed by a sequence of histological changes in a rat bladder at fixed time course intervals. The rats were grouped into normal control and experimental animals, and ketamine (100 mg/kg/day) was administrated to the experimental animals for 2, 4, and 8 weeks, respectively; similarly, the control animals received saline. All animals were evaluated for bladder function and histological responses to the treatment. Ultrastructural changes were observed by transmission electron microscopy (TEM). The results showed progressive bladder dysfunctions with hyperactive bladder conditions according to the time course and frequency of exposure to ketamine. Significantly, decreased inter contraction intervals, residual urine volume, peak micturition pressure, and increased micturition frequency were observed. Bladder histology results revealed substantial inflammation and comprehensive submucosa edema in week 2 and 4 rats along with fibrosis and significant bladder detrusor hypertrophy in week 8 rats. TEM analysis revealed bladder wall thickening, deformed blood vessels, detrusor hypertrophy, wobbled gap junction, and barrier dysfunction at different time course levels in experimental animals. These results provided a profound knowledge about the prognosis and step-by-step pathophysiology of the disease, which might help in developing new therapeutic interventions.

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Xiao-Wen Tseng

B6 Mouse Strain: The Best Fit for LPS-Induced Interstitial Cystitis Model

Intravesical Instillation of Norketamine, a Ketamine Metabolite, and Induced Bladder Functional Changes in Rats

New insights into CFTR modulation in reproduction: testicular microenvironment imbalance leads to over-activated caspase signalling in spermatogenesis and adversely affects fertility

Intracavernous injection of platelet‐rich plasma reverses erectile dysfunction of chronic cavernous nerve degeneration through reduction of prostate hyperplasia evidence from an aging‐induced erectile dysfunction rat model

Specific Impacts of Ketamine on Bladder Dysfunction and Associated Histological Alterations in Rats—A Time Course Validation through Transmission Electron Microscopy

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