Yoshio Yamawaki scite author profile

Calcium alginate dressings have beneficial effects on wound healing by providing a moist wound environment. However, cytotoxicity and the nonbiodegradable nature of calcium alginate dressings induce unresolved chronic foreign-body reaction. In this study, a novel freeze-dried alginate gel dressing (AGA-100) low in calcium ions was evaluated for cytotoxicity to L929 cells in vitro and in full-thickness pig wounds in vivo. Cytotoxicity testing on L929 cells showed the cytocompatibility of AGA-100 extracts, while extracts from Kaltostat, a well-established alginate dressing, induced cytopathic effects. In an in vivo study using pigskin, AGA-100, Kaltostat, and gauze were applied on 1-in-diameter circular full-thickness wounds on the back of pigs and the time course of wound closure was evaluated. Kaltostat and gauze dressings were used as controls. For histologic evaluation, wound tissue was harvested on day 18. AGA-100-treated wounds showed rapid wound closure compared to control wounds on day 15. Foreign-body reaction was marked in Kaltostat- and gauze-treated wounds, and differed significantly from AGA-100-treated wounds. Based on these data, AGA-100 could reduce the cytotoxicity to fibroblasts and foreign-body reaction that have been observed with currently available calcium alginate dressings; it was also found to be useful as an alginate dressing.

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In vivo evaluation of a novel alginate dressing

Suzuki

Tanihara

Nishimura

et al. 1999

J. Biomed. Mater. Res.

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Alginate dressings are currently used in the management of epidermal and dermal wounds, and provide a moist environment that leads to rapid granulation and reepithelialization. However, a cytotoxic effect on proliferation of fibroblasts and residual material with inflammation in healing wounds have been reported recently. We have developed a new alginate dressing (AGA-100), which does not have an inhibitory effect on proliferation of fibroblasts. The purpose of this study was to evaluate the new alginate dressing with respect to wound healing in full- and partial-thickness pig wounds and with respect to biodegradation following implantation into rabbit muscle. Kaltostat and Sorbsan, both well-established commercial dressings, were used as control. The closure rate of full-thickness wounds treated with AGA-100 was significantly higher on day 15 compared with that with Kaltostat and Sorbsan. Reepithelialization rate of partial-thickness wounds treated with Sorbsan was statistically significantly lower on day 3 than those with the other two dressings. As to dressing debris remained in the healing wound, a large amount of foreign debris was noted in all the full-thickness wounds treated with Kaltostat or Sorbsan, while only about one-third of wounds treated with AGA-100 showed a little dressing debris. AGA-100 implanted into the muscle of rabbits was bioresorbed completely within 3 months. Therefore, dressing residue in AGA-100-treated full-thickness wounds might be fully absorbed in a few months. In conclusion, it is shown that our newly developed AGA-100 possesses superior properties compared with typical alginate dressings.

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Microglia-triggered hypoexcitability plasticity of pyramidal neurons in the rat medial prefrontal cortex

Yamawaki

Wada

Matsui

et al. 2022

Current Research in Neurobiology

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Adherence to a topical moisturizing preparation for regorafenib-related hand-foot skin reaction

Sato

Ishikawa

Hamauchi

et al. 2019

J Oncol Pharm Pract

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Objective Application of topical moisturizing preparations is important for the prevention and palliation of hand-foot skin reaction induced by multi-kinase inhibitor. Application adherence of topical moisturizing preparations in clinical practice has rarely been reported. This study investigated the factors affecting adherence to the application of topical moisturizing preparations in patients administered regorafenib. Methods The subjects were patients administered regorafenib ( n = 118). Consumption of a urea-based moisturizing ointment, hand-foot skin reaction grade (CTC-AE ver 3.0), treatment duration, and dose of regorafenib, factors that might affect the onset of symptoms and adherence, including age, sex, presence of a key person, working status, performance status, past use of capecitabine or epidermal growth factor receptor antibodies, and relative dose intensity were retrospectively investigated. The adherence to the topical moisturizing ointment (<21 g per week) was judged as poor. The data were analyzed by logistic regression analysis. Results Working status was associated with poor adherence, showing a positive correlation (odds ratio; 3.024, p = 0.023). In contrast, symptom grade of hand-foot skin reaction and regorafenib relative dose intensity showed negative correlation with poor adherence (odds ratio; 0.971, p = 0.012, and 0.485, p < 0.001, respectively). Conclusions The results suggest that adherence decreases in patients with working. The relative dose intensity of regorafenib decreased when adherence to topical moisturizing ointments decreased. Severe hand-foot skin reaction could be associated with adherence. Patients consciously might not apply the ointment when hand-foot skin reaction did not become severe. It will be problematic for medical personnel to motivate patients for improving adherence to the use of moisturizing ointments.

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A Destruction Model of the Vascular and Lymphatic Systems in the Emergence of Psychiatric Symptoms

Segawa

Blumenthal

Yamawaki

et al. 2021

Biology

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The lymphatic system is important for antigen presentation and immune surveillance. The lymphatic system in the brain was originally introduced by Giovanni Mascagni in 1787, while the rediscovery of it by Jonathan Kipnis and Kari Kustaa Alitalo now opens the door for a new interpretation of neurological diseases and therapeutic applications. The glymphatic system for the exchanges of cerebrospinal fluid (CSF) and interstitial fluid (ISF) is associated with the blood-brain barrier (BBB), which is involved in the maintenance of immune privilege and homeostasis in the brain. Recent notions from studies of postmortem brains and clinical studies of neurodegenerative diseases, infection, and cerebral hemorrhage, implied that the breakdown of those barrier systems and infiltration of activated immune cells disrupt the function of both neurons and glia in the parenchyma (e.g., modulation of neurophysiological properties and maturation of myelination), which causes the abnormality in the functional connectivity of the entire brain network. Due to the vulnerability, such dysfunction may occur in developing brains as well as in senile or neurodegenerative diseases and may raise the risk of emergence of psychosis symptoms. Here, we introduce this hypothesis with a series of studies and cellular mechanisms.

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Yoshio Yamawaki

Evaluation of a novel alginate gel dressing: Cytotoxicity to fibroblastsin vitro and foreign-body reaction in pig skinin vivo

In vivo evaluation of a novel alginate dressing

Microglia-triggered hypoexcitability plasticity of pyramidal neurons in the rat medial prefrontal cortex

Adherence to a topical moisturizing preparation for regorafenib-related hand-foot skin reaction

A Destruction Model of the Vascular and Lymphatic Systems in the Emergence of Psychiatric Symptoms

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