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TBAL 台灣活性脂質股份有限公司

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TBAL 台灣活性脂質股份有限公司

『機槍式液態質譜/質譜串接』(Shotgun MS/MS)技術，得以『高通量』(High Throug

04/08/2025

📣【展後加碼延長・錯過現場也還有機會！】
錯過了 #亞洲生技大展沒關係！
我們聽到大家的呼聲🎉

🔥 Nightingale 全方位血液代謝體檢測限時展後優惠持續中！
🔬 一次解讀250+健康關鍵指標
📌 原價 NT$8000
✅ 現在只要 NT$5000 / 樣本（不限購）
✅ 大量加碼下殺 NT$4000 / 樣本（單筆100樣本以上）
⏳ 加碼優惠只到 8/31 截止
🎯 線上登記｜https://www.surveycake.com/s/80lPK

#代謝體學 #健康數據 #血液檢測

23/07/2025

明天！就是明天！
TBAL在2025亞洲生技大展
當天有...
☑️Nightingale 血液代謝體檢測限時優惠
☑️知識量爆棚的專題演講
☑️一對一專業諮詢
☑️茶點&小禮
有興趣的你千萬不要錯過 🎉
⏰ 7/24-7/27
📍台北南港展覽館1館 4樓 L318攤位
快來攤位找我們吧 🥰
https://www.t-bal.com/articles/article-PZoS2h9sH8QbPGVm8Qa6Fn
#代謝體學 #健康數據 #血液檢測
#亞洲生技展

10/07/2025

🎤【TBAL 專題演講｜2025 亞洲生技大展】
從多體學檢測到產品應用與代工技術，深入解析未來生技關鍵趨勢 🔬
誠摯邀請您參加由 TBAL 主持的三場專題講座，聚焦科研技術與實務經驗，精準掌握市場新脈動：
🚩第一場：多體學檢測 (脂質體、蛋白質、代謝體、空間體學)
講者：馬文隆教授
時間：7/24(四) 13:00-13:20

🚩第二場：產品開發
講者：楊顓丞博士
時間：7/24(四) 15:40-16:00

🚩第三場：代工包覆(核酸包覆、難溶性藥品包覆)、MRT(藥廠經驗)
講者：曾堯宣教授
時間：7/25(五) 14:20-14:40
📍 地點：台北南港展覽館1館 4F L318
📆 展期：7/24 – 7/27
🎫 名額有限，歡迎提早入席！

#亞洲生技大展 #多體學 #產品開發 #藥品包覆 #生技趨勢

01/07/2025

📣【TBAL展場限定・破盤優惠】
只在 2025 亞洲生技大展！
Nightingale 全方位血液代謝體檢測
🔬一次解析250+項健康指標
📌 原價 NT$8,000
👉 展場價 NT$5000/樣本（不限數量）
👉 大量加碼價 NT$4000/樣本（100樣本以上）
🎯 現場即刻登記，先拿折扣價
⏰ 7/24-7/27
📍台北南港展覽館1館 4樓 L318攤位
快來攤位找我們吧 🥰
2025 亞洲生技大展官網：
https://expo.bioasiataiwan.com/
#代謝體學 #健康數據 #血液檢測
#亞洲生技展

24/06/2025

#代謝體學抽獎活動🎉
讓TBAL 成為您的最佳助手
Nightingale 全方位血液代謝體檢測
🎁 超值好禮：
✨
🧬 #免費一對一專業諮詢
-
📍只要完成以下步驟就有機會獲得：
1️⃣ 按讚本篇貼文 👍
2️⃣ 留言「我希望應用 Nightingale 在＿＿＿」
3️⃣ 追蹤我們的FB帳號，鎖定活動結果🔍
-
📆 抽獎截止：7/6
📣 得獎名單將於7/7公布，快來參加吧！
⚠️預計抽出10名幸運兒享有驚喜折扣包+專業諮詢服務
-
#抽獎活動 #代謝體學

$\ 我們有 Podcast 《Xio Talks 乾科學》囉😍 / #乾科學不乾的科學，只給你乾貨。脂質很難懂？RNA又在幹嘛？保健品到底補不補？別怕，這裡沒有艱深的科學語言，只有用聽得懂的方式，聊你該知道的那些生醫大小事🫶🏻適合...$

05/06/2025

\ 我們有 Podcast 《Xio Talks 乾科學》囉😍 /
#乾科學不乾的科學，只給你乾貨。
脂質很難懂？RNA又在幹嘛？保健品到底補不補？
別怕，這裡沒有艱深的科學語言，只有用聽得懂的方式，聊你該知道的那些生醫大小事🫶🏻
適合生技從業者、創新創業者、醫藥營養學者與對科學有好奇心的你，一起聽見科學與產業的真實聲音。
✨ 追蹤我們的節目，科學其實不無聊，無聊的是沒聽Xio Talks。
🎧 《 Xio Talks 乾科學》收聽平台
Apple Podcast｜Spotify｜Youtube
🔗點擊連結，立即追蹤節目🫂

🔗
https://pse.is/TBAL_Podcast

🔗
https://pse.is/TBAL_Spotify

🔗
https://pse.is/TBAL_YT

30/04/2025

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MetaboAnalyst 6.0: towards a unified platform for metabolomics data processing, analysis and interpretation.
Nucleic Acids Research, Volume 52, Issue W1, 5 July 2024, Pages W398–W406
📌 Significance :
Metabolomics involves the comprehensive study of all small molecules in a biological system. User-friendly and easily accessible bioinformatics tools are essential to deal with the complex data produced from metabolomics studies.
📌 Importance of lipidology :
Lipidomics is a part of metabolomics, and understanding the functions of MetaboAnalyst can aid in the analysis of lipidomics data.
📌 Connectivity to other field :
Metabolomics and transcriptomics can be connected using MetaboAnalyst's joint pathway analysis and network analysis modules. Additionally, the new causal analysis and dose-response analysis modules can be applied to exposomics studies.
-
✏️READ MORE
https://www.nature.com/articles/s41591-024-03124-1
👨🏻‍🔬Trans-Omics analysis service
https://academic.oup.com/nar/article/52/W1/W398/7642060?

25/04/2025

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Two non-psychoactive cannabinoids reduce intracellular lipid levels and inhibit hepatosteatosis.
J Hepatol. 2015 Jun;62(6):1382-90.
📌 Significance :
The significance of this study lies in exploration of potential therapeutic agents for non-alcoholic fatty liver disease (NAFLD) and metabolic syndrome, that are increasingly prevalent due to rising obesity rates. The study investigates the effects of cannabinoids, specifically THCV and CBD, for their potential to improve insulin sensitivity and lipid metabolism. This could lead to new pharmacological treatments for NAFLD, as effective therapies.
📌 Importance of lipidology :
The effects of THCV and CBD on lipid levels were examined in a variety of in vitro and in vivo systems, with special emphasis on models of hepatosteatosis. Treatment also induced post-translational changes in a variety of proteins such as CREB, PRAS40, AMPKa2 and several STATs indicating increased lipid metabolism and, possibly, mitochondrial activity. They show here that both THCV and CBD reduce intracellular lipid levels in vitro in a model of hepatosteatosis and adipocytes, mobilize zebrafish embryo lipid yolk stores and inhibit hepatosteatosis in obese mice.
📌 Connectivity to other fields :
The implications of this study consist of various fields beyond hepatology and metabolic research, including pharmacology, nutrition, and mental health. This highlights the interdisciplinary nature of metabolic research
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✏️READ MORE
https://pubmed.ncbi.nlm.nih.gov/25595882/
👨🏻‍🔬Lipid Profiling
https://www.t-bal.com/art....../group-3wMaXdj7KAt8ziTgHoRYtR

19/04/2025

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Enhancing extracellular vesicle cargo loading and functional delivery by engineering protein-lipid interaction.
Nature Communications volume 15, Article number: 5618 (2024)
📌 Significance :
The research on engineering extracellular vesicles (EVs) to enhance cargo loading and functional delivery by optimizing protein-lipid interactions is a significant and impactful advancement, particularly for fields like lipidology and cellular connectivity. Extracellular vesicles are small, membrane-bound structures that cells naturally release. They play crucial roles in cell-to-cell communication by transporting biomolecules, including proteins, lipids, and RNA, to other cells. Enhancing EV cargo loading and functional delivery can revolutionize therapeutic delivery systems and diagnostic approaches.
📌 Importance of lipidology :
Optimized Lipid Interactions: Engineering EVs to enhance protein-lipid interactions can improve the stability, specificity, and efficiency of cargo loading. Improved Delivery Efficacy: By enhancing these protein-lipid interactions, researchers can ensure that EVs deliver their cargo more reliably to target cells. Innovative Applications in Therapeutics: Engineered EVs offer novel therapeutic opportunities, including personalized medicine approaches, due to their natural role in intercellular communication. Enhanced Understanding of Lipid Dynamics: This research provides new insights into how proteins and lipids interact at the nanoscale, advancing our understanding of lipidology.
📌 Connectivity :
This research underscores the value of EVs as therapeutic vehicles, enhancing cellular connectivity and function through refined molecular engineering. This work has the potential to establish EVs as a cornerstone in translational medicine, particularly in lipid-associated diseases and regenerative medicine.
-
✏️READ MORE
https://www.nature.com/articles/s41467-024-49678-z?
👨🏻‍🔬Lipid Profiling
https://www.t-bal.com/art....../group-3wMaXdj7KAt8ziTgHoRYtR
👨🏻‍🔬Exosome
https://www.t-bal.com/article_categories/group-ewbWJrwGh6ZBBWeaTKMynG

09/04/2025

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The lipid-metabolism enzyme ECI2 reduces neutrophil extracellular traps formation for colorectal cancer suppression.
Nat Commun. 2024 Aug 21;15(1):7184.
📌 Significance :
This study reveals a critical link between lipid metabolism and colorectal cancer (CRC). In particular, the lipid metabolizing enzyme ECI2 was found to inhibit tumor formation. It was found that ECI2 could reduce interleukin-8 (IL-8) expression by modulating ether lipid metabolism, thereby reducing neutrophil recruitment and the formation of neutrophil extracellular traps (NETs), which is important for inhibiting the progression of colorectal cancer.
📌 Importance of lipidology :
This study provides insight into the relationship between ether lipid metabolism and tumor progression. Ether lipids have been found to be associated with increased tumor aggressiveness in the past, and this study further confirms their role in colorectal cancer. The role of ECI2 in the inhibition of ether lipid production may provide a new direction for targeting lipid metabolic pathways in cancer therapy in the future.
📌 Connectivity to other field :
Abnormal lipid metabolism is not only an intracellular change, but also affects the immune response in the tumor microenvironment. Neutrophils, as part of the immune system, undergo functional changes when regulated by ether lipids, especially in the formation of NETs, which are DNA and protein meshwork excreted by neutrophil, and have been shown to be associated with the progression of various cancers. This study reveals how lipid metabolism regulates immune responses in the tumor microenvironment, particularly affecting the function of immune cells, providing new directions for cancer immunotherapy research.
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✏️READ MORE
https://pubmed.ncbi.nlm.nih.gov/39169021/
👨🏻‍🔬Lipid Profiling
https://www.t-bal.com/art....../group-3wMaXdj7KAt8ziTgHoRYtR

01/04/2025

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Low-Dose Mildronate-Derived Lipidoids for Efficient mRNA Vaccine Delivery with Minimal Inflammation Side Effects.
ACS Nano . 2024 Aug 27;18(34):23289-23300.
📌 Significance :
This study developed a low-dose mildronate-derived cationic lipid nanoparticle, effectively addressing the inflammatory side effects of mRNA vaccine injection. The results demonstrated that in a melanoma model, mLNP-69 successfully delivered mRNA, preventing tumor formation and inhibiting tumor progression. This innovation significantly enhances the safety and efficacy of mRNA vaccines.
📌 Importance of lipidology :
Lipid nanoparticles play a crucial role in the effective encapsulation and delivery of mRNA. This study demonstrates how lipid modifications can address the side effects associated with mRNA delivery, ensuring a safer and more effective delivery system. This approach highlights the pivotal role of lipidology in advancing vaccine delivery technologies and improving therapeutic outcomes.
📌 Connectivity to other fields :
This study demonstrates the ability of lipid nanoparticles to efficiently deliver mRNA to target tissues and trigger immune responses. Additionally, it successfully reduces the inflammatory side effects associated with drug delivery. This research provides a valuable model for the future application of different mRNA to treat various diseases.
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✏️READ MORE
https://pubmed.ncbi.nlm.nih.gov/39151414/
👨🏻‍🔬NTA
https://www.t-bal.com/article_categories/group-FZF5bDpJjhaeJHehT7rgMa
👨🏻‍🔬Liposome encapsulation
https://www.t-bal.com/article_categories/group-3wMaXdj7KAt8ziTgHoRYtR

28/03/2025

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Endogenous ether lipids differentially promote tumor aggressiveness by regulating the SK3 channel.
J Lipid Res . 2024 May;65(5):100544.
📌 Significance :
This study provides insight into the role of endogenous ether lipids in regulating SK3 channels and reveals how they contribute to tumor aggressiveness. Studies have shown that alkyl ether and alkenyl ether lipids affect the expression of miR-499 and miR-208, thereby regulating the activity of SK3 ion channels and promoting cell migration, invasion and adhesion.
📌 Importance of lipidology :
Ether lipid levels have been shown to be elevated in tumors. This study investigates the regulatory effects of endogenous alkyl- and alkenyl-ether lipids on SK3 channels. A deeper understanding of the mechanisms underlying the interaction between these endogenous lipids and the SK3 ion channel provides a fresh perspective for future research and therapeutic strategies.
📌 Connectivity to other fields :
This study provides a new perspective on the application of lipid biology in cancer treatment, revealing that lipid composition dysregulation may lead to the hyperpolarization of ion channels. Based on this finding, developing therapeutic strategies that inhibit endogenous alkyl- and alkenyl-ether lipids could potentially improve cancer treatment outcomes.
-
✏️READ MORE
https://pubmed.ncbi.nlm.nih.gov/38642894/
👨🏻‍🔬Lipid Profiling
https://www.t-bal.com/article_categories/group-3wMaXdj7KAt8ziTgHoRYtR

Address

台中市北屯區文心路四段955號20樓之 6
Taichung
406

Opening Hours

Monday	09:00 - 18:00
Tuesday	09:00 - 18:00
Wednesday	09:00 - 18:00
Thursday	09:00 - 18:00
Friday	09:00 - 18:00

Telephone

+886422476758

Website

https://www.t-bal.com/

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