Pulse Biosciences Announces Publication in the Journal of Thoracic and Cardiovascular Surgery
Pulse Biosciences Announces Publication in the Journal of Thoracic and Cardiovascular Surgery
Preclinical data demonstrates advantages of the nano-PFA Cardiac Surgical System over radio frequency technology for ablation of cardiac tissue
臨床前數據表明,nano-PFA心臟外科系統在心臟組織消融方面相比於射頻技術具有優勢
MIAMI--(BUSINESS WIRE)--Dec. 17, 2024--Pulse Biosciences, Inc. (Nasdaq: PLSE), a company leveraging its novel and proprietary Nanosecond Pulsed Field Ablation (nano-PFA or nsPFA) technology, today announced a new publication in the Journal of Thoracic and Cardiovascular Surgery. This preclinical study demonstrates the advantages of the nano-PFA Cardiac Surgical System over radiofrequency technology for the ablation of cardiac tissue.
邁阿密--(商業資訊)--2024年12月17日--Pulse Biosciences, Inc. (納斯達克: PLSE)是一家利用其新型專有的納秒脈衝場消融(nano-PFA或nsPFA)技術的公司,今天宣佈在《胸外科和心血管外科雜誌》上發表了一篇新論文。這項臨床前研究展示了nano-PFA心臟外科系統在心臟組織消融方面相較於射頻技術的優勢。
The study was designed to demonstrate the safety and efficacy of a new nanosecond pulsed field ablation parallel clamp, Pulse Biosciences' nano-PFA Cardiac Surgical System, in ablating different cardiac tissue locations. Ablations were performed in all four heart chambers of porcine models by delivering a sequence of very short-duration high-amplitude electrical pulses taking 1.25 seconds per application, independent of tissue thickness or type. Results validated the expected clinical benefits of nano-PFA, as all lesions produced by this technology resulted in persistent exit block of pulmonary veins. This is consistent with the histology showing reliable, durable contiguous and transmural ablations without injury to adjacent organs.
這項研究旨在展示Pulse Biosciences的nano-PFA心臟外科系統在不同心臟組織位置消融中的安全性和有效性。通過施加一系列持續1.25秒的短時高幅度電脈衝,在豬模型的四個心腔中進行消融,獨立於組織的厚度或類型。結果驗證了nano-PFA的預期臨床益處,因爲此技術產生的所有損傷均導致肺靜脈的持續退出阻滯。這與組織學結果一致,顯示出可靠、持久的連續和貫穿性消融,而不對鄰近器官造成傷害。
"We are very proud to have this data published in the leading scientific journal in the field, the renowned Journal of Thoracic and Cardiovascular Surgery. The results of this study are extremely compelling because they demonstrate the potential for nano-PFA to consistently deliver contiguous and transmural ablations to tissues of varying thickness without injury to adjacent organs at much quicker speeds than radiofrequency technology. These benefits are very appealing to surgeons who always prioritize generating consistent positive outcomes for their patients," said Dr. Gan Dunnington, Chief Medical Officer, Cardiac Surgery of Pulse Biosciences.
「我們非常自豪能夠將這些數據發表在該領域領先的科學期刊——著名的《胸外科和心血管外科雜誌》上。該研究的結果非常具有說服力,因爲它們表明,nano-PFA能夠以比射頻技術更快的速度,持續一貫地對不同厚度的組織進行連續和貫穿性消融,而不對鄰近器官造成傷害。這些好處對始終優先考慮爲患者創造一致積極結果的外科醫生而言非常具有吸引力,」Pulse Biosciences心臟外科首席醫療官Gan Dunnington博士表示。
Dr. Niv Ad, Chief Science Officer, Cardiac Surgery of Pulse Biosciences commented, "Nano-PFA delivers short-duration, high-amplitude energy pulses which act as a nonthermal mechanism of action. Our preclinical work is validating the technology's theoretical benefits to deliver safer and more effective ablations to advance the surgical treatment of atrial fibrillation. We look forward to continuing our clinical work and are thankful for the support of all the surgeons who are supporting our studies."
Pulse Biosciences心臟外科首席科學官Niv Ad博士評論道:「nano-PFA提供短時高幅度能量脈衝,作爲一種非熱機制發揮作用。我們的臨床前工作正在驗證該技術理論上能夠更安全、更有效地進行消融,從而推動心房顫動的外科治療。我們期待繼續我們的臨床工作,並感謝所有支持我們研究的外科醫生。」
Pulse's Cardiac Surgery System with Surgical Clamp is designed to produce durable, continuous, transmural, ablation lesions during cardiac surgery procedures for the treatment of atrial fibrillation. The bipolar clamp utilizes the Company's proprietary nanosecond PFA technology. Based on pre-clinical studies, a single application of less than two seconds with the Surgical Clamp creates a consistent, transmural, durable ablation, which is significantly faster, requiring approximately one-twentieth the time of currently available thermal ablation technologies. Also, due to the non-thermal mechanism of action of nano-PFA, there is no risk of thermal spread that may cause undesired injury to collateral tissues, which compares favorably to thermal radiofrequency ablation. The nano-PFA Cardiac Surgical System received FDA Breakthrough Device Designation in July 2024 and was enrolled in the FDA's TAP program.
Pulse的心臟外科系統與外科夾具旨在在心臟手術過程中產生耐久、連續、貫穿全層的消融病竈,以治療房顫。雙極夾具利用公司的專有納秒PFA技術。根據臨床前研究,使用外科夾具進行的少於兩秒的單次應用可以創建一致的、貫穿全層、耐久的消融,這顯著快於目前可用的熱消融技術,所需時間僅爲其約二十分之一。此外,由於納米PFA的非熱作用機制,熱擴散的風險從而可能對旁邊組織造成不必要的傷害,這與熱射頻消融相比具有優勢。納米PFA心臟外科系統在2024年7月獲得FDA突破性器械認定,並註冊參加FDA的TAP項目。
The company is progressing with a multi-center, first-in-human atrial fibrillation (AF) feasibility study in Europe. Currently, three centers in the Netherlands are enrolling patients into the study. The Company expects to share preliminary results of the trial in late 2025.
該公司正在歐洲進行一項多中心首次人體房顫(AF)可行性研究。目前,荷蘭的三個中心正在招募患者參與該研究。該公司預計將在2025年底分享試驗的初步結果。
About Pulse Biosciences
關於Pulse Biosciences
Pulse Biosciences is a novel bioelectric medicine company committed to health innovation that has the potential to improve the quality of life for patients. The Company's proprietary CellFX nsPFA technology delivers nanosecond pulses of electrical energy to non-thermally clear cells while sparing adjacent noncellular tissue. The Company is actively pursuing the development of its CellFX nsPFA technology for use in the treatment of atrial fibrillation and in a select few other markets where it could have a profound positive impact on healthcare for both patients and providers. Pulse Biosciences is now headquartered in Miami, Florida and maintains its office in Hayward, California.
Pulse Biosciences是一家致力於健康創新的生物電醫學公司,致力於改善患者的生活質量。公司的專有CellFX nsPFA技術通過非熱方式向細胞提供納秒脈衝電能,同時保護相鄰的非細胞組織。該公司正在積極推進CellFX nsPFA技術的開發,以用於治療房顫及其他幾個潛在對患者和提供者的醫療健康產生重大積極影響的市場。Pulse Biosciences目前總部位於佛羅里達州邁阿密,並在加利福尼亞州海沃德設有辦公室。
Pulse Biosciences, CellFX, Nano-Pulse Stimulation, NPS, nsPFA, CellFX nsPFA and the stylized logos are among the trademarks and/or registered trademarks of Pulse Biosciences, Inc. in the United States and other countries.
Pulse Biosciences、CellFX、納米脈衝刺激、NPS、nsPFA、CellFX nsPFA及其風格化標誌是Pulse Biosciences, Inc.在美國及其他國家的商標和/或註冊商標。
Forward-Looking Statements
前瞻性聲明
All statements in this press release that are not historical are forward-looking statements, including, among other things, statements relating to the effectiveness of the Company's CellFX nsPFA technology and CellFX System to safely and effectively provide symptomatic relief to patients with benign thyroid nodules or cause significant nodule volume reductions, whether within a month or otherwise, statements concerning the Company's expected product development efforts and future clinical studies and regulatory submissions and whether the Company might obtain regulatory approval to market and sell the nsPFA Percutaneous Electrode System as a treatment for benign thyroid nodules, statements concerning whether any clinical study will show that the Company's novel nsPFA mechanism of action will deliver fast and precise ablations, statements concerning early clinical successes and whether they are predictive of the safety and effectiveness of any medical device such as the nsPFA Percutaneous Electrode System, and Pulse Biosciences' expectations, whether stated or implied, regarding whether the Company's CellFX nsPFA technology will become a disruptive, superior and durable treatment option for treating benign thyroid nodules or any other medical condition or otherwise advance current medical standards of care, and other future events. These statements are not historical facts but rather are based on Pulse Biosciences' current expectations, estimates, and projections regarding Pulse Biosciences' business, operations and other similar or related factors. Words such as "may," "will," "could," "would," "should," "anticipate," "predict," "potential," "continue," "expects," "intends," "plans," "projects," "believes," "estimates," and other similar or related expressions are used to identify these forward-looking statements, although not all forward-looking statements contain these words. You should not place undue reliance on forward-looking statements because they involve known and unknown risks, uncertainties, and assumptions that are difficult or impossible to predict and, in some cases, beyond Pulse Biosciences' control. Actual results may differ materially from those in the forward-looking statements as a result of a number of factors, including those described in Pulse Biosciences' filings with the Securities and Exchange Commission. Pulse Biosciences undertakes no obligation to revise or update information in this release to reflect events or circumstances in the future, even if new information becomes available.
本新聞稿中所有不是歷史性的聲明均爲前瞻性聲明,包括但不限於與公司CellFX nsPFA技術和CellFX系統在安全有效地爲患者提供良性甲狀腺結節的症狀性緩解或導致顯著結節體積減少(無論是在一個月內還是其他時間)相關的聲明,關於公司預期的產品開發工作、未來的臨床研究和監管提交,以及公司是否可能獲得監管批准以將nsPFA經皮電極系統作爲治療良性甲狀腺結節的市場銷售批准的聲明,關於任何臨床研究是否顯示公司的新型nsPFA作用機制將實現快速而精準的消融的聲明,關於早期臨床成功是否可以預測任何醫療器械(如nsPFA經皮電極系統)的安全性和有效性的聲明,以及Pulse Biosciences的期望,無論是明示還是暗示,關於公司的CellFX nsPFA技術是否會成爲一種顛覆性的、優越的和持久的治療良性甲狀腺結節或其他任何醫療狀況的選擇,或在其他方面推進當前的醫療標準和其他未來事件。這些聲明不是歷史事實,而是基於Pulse Biosciences當前的期望、估計和預測,涉及Pulse Biosciences的業務、運營和其他類似或相關因素。諸如「可能」、「將」、「能夠」、「會」、「應該」、「預期」、「預測」、「潛在的」、「繼續」、「期望」、「打算」、「計劃」、「項目」、「相信」、「估計」和其他類似或相關的表達被用來標識這些前瞻性聲明,儘管並非所有前瞻性聲明都包含這些詞。您不應對前瞻性聲明過度依賴,因爲這些聲明涉及已知和未知的風險、不確定性和假設,這些是難以或不可能預測的,並且在某些情況下超出了Pulse Biosciences的控制。實際結果可能與前瞻性聲明中的結果存在重大差異,原因包括在Pulse Biosciences向證券交易委員會提交的文件中描述的因素。Pulse Biosciences沒有義務修訂或更新本聲明中的信息以反映未來的事件或情況,即使新信息變得可用。
View source version on businesswire.com:
在businesswire.com查看源版本:
Investors:
Pulse Biosciences, Inc.
Darrin Uecker, CTO or Kevin Danahy CCO
IR@pulsebiosciences.com
or
Gilmartin Group
Philip Trip Taylor
415.937.5406
philip@gilmartinir.com
投資者:
脈衝生物科學公司
達林·尤克,首席技術官,或凱文·達納****商業官
IR@pulsebiosciences.com
或
吉爾馬丁集團
菲利普·特里普·泰勒
415.937.5406
philip@gilmartinir.com
Source: Pulse Biosciences, Inc.
來源:Pulse Biosciences, Inc.
譯文內容由第三人軟體翻譯。