βCDP(β-シクロデキストリンポリマー)関連20260201版

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created: 2026-01-31

論文1:Dual-MIP PEDOT/nCuNi-nanocatalyst sensor for simultaneous detection of dopamine and vanillylmandellate

  • 著者:Demkiv, O; Stasyuk, N; Holdynski, M; Nogala, W; Gonchar, M
  • 掲載誌MICROCHEMICAL JOURNAL(2026)
  • キーワード:Molecularly imprinted polymer; Dual-template sensor; CuNi nanoparticles; Dopamine; Vanillylmandelic acid; Electrochemical detection
  • DOI:10.1016/j.microc.2025.116746

何の研究?(ひとことで)

βCDを“分子の受け皿”として組み込んだ分子鋳型(MIP)センサーで、尿中の2種類バイオマーカーを同時に高感度検出した研究

ポイント(やさしく)

  • βCDの包接(ホスト–ゲスト)相互作用により、目的分子を選択的に取り込みやすい認識層を作る。
  • CuNiナノ粒子で電気化学シグナルを増強し、低濃度でも検出できるようにする。
  • 実試料(尿)でHPLCと整合する結果を示し、ポイントオブケア診断への可能性を示した。

応用イメージ(どこに役立つ?)

  • 医療現場での迅速検査(ポイントオブケア)
  • 複数成分を一度に測る小型分析デバイス
  • βCD系材料を使った高選択認識層の設計

論文2:Characterization of Eudragit Nanoparticle-Tailored β-Cyclodextrin/Thiolated Sodium Alginate/Polyethyleneglycol Polymer Hybrid as a Potential Bone Tissue Engineering Scaffold

  • 著者:Rahaman, J; Mukherjee, D
  • 掲載誌AAPS PHARMSCITECH(2026)
  • キーワード:bone tissue regeneration; eudragit nanoparticle; freeze-thaw; polymer hybrid scaffold; thiolated sodium alginate
  • DOI:10.1208/s12249-025-03314-1

何の研究?(ひとことで)

βCDとアルギン酸・PEGなどを組み合わせたハイブリッドハイドロゲルに、ナノ粒子を導入して骨再生向け足場材を設計した研究

ポイント(やさしく)

  • βCDの構造(疎水内孔+親水外側)を活かし、材料の相互作用や薬物担持性を高める発想。
  • 凍結融解(freeze–thaw)で化学架橋剤を使わずにゲル化し、細孔構造や水分保持性を調整。
  • 細胞毒性が低いこと、骨形成関連タンパク質への結合が示唆されることから、骨組織工学への適性を議論。

応用イメージ(どこに役立つ?)

  • 骨欠損の再生医療用足場材(スキャフォールド)
  • ドラッグデリバリー機能付き創傷・骨材料
  • 生体適合ゲルの材料設計(非毒性プロセス)

論文3:Substituent Size and Interaction Type Shape Sulfonylurea-β-Cyclodextrin Binding Modes

  • 著者:Valencia-Ortega, M; Gutierrez-Flores, J; Huerta, EH; Ramos, E; Gomez-Balderas, R
  • 掲載誌JOURNAL OF PHYSICAL CHEMISTRY B(2026)
  • キーワード
  • DOI:10.1021/acs.jpcb.5c06056

何の研究?(ひとことで)

βCDが薬(スルホニル尿素系)をどう包み込むかを、分子動力学と量子化学で詳しく解析した研究

ポイント(やさしく)

  • 置換基の大きさにより“入る向き”や安定な結合様式が変わることを統計的に整理。
  • 弱い相互作用の“ネットワーク”が安定化の主因で、単一の強い水素結合だけでは説明しにくいことを示す。
  • 製剤設計(溶解性・安定性の改善)のための、βCDホスト–ゲスト認識の指針になる。

応用イメージ(どこに役立つ?)

  • 難溶性医薬の溶解性向上(包接体)
  • CDを用いたドラッグデリバリー設計
  • 計算化学によるホスト–ゲスト最適化

参考文献

  1. Demkiv, O; Stasyuk, N; Holdynski, M; Nogala, W; Gonchar, M. Dual-MIP PEDOT/nCuNi-nanocatalyst sensor for simultaneous detection of dopamine and vanillylmandellate. MICROCHEMICAL JOURNAL (2026). DOI: 10.1016/j.microc.2025.116746
  2. Rahaman, J; Mukherjee, D. Characterization of Eudragit Nanoparticle-Tailored β-Cyclodextrin/Thiolated Sodium Alginate/Polyethyleneglycol Polymer Hybrid as a Potential Bone Tissue Engineering Scaffold. AAPS PHARMSCITECH (2026). DOI: 10.1208/s12249-025-03314-1
  3. Valencia-Ortega, M; Gutierrez-Flores, J; Huerta, EH; Ramos, E; Gomez-Balderas, R. Substituent Size and Interaction Type Shape Sulfonylurea-β-Cyclodextrin Binding Modes. JOURNAL OF PHYSICAL CHEMISTRY B (2026). DOI: 10.1021/acs.jpcb.5c06056

English (for Website)

About this page

We summarize only the papers listed in βCDP_20260201.txt with plain‑language explanations.
Rule: if the file contains ≥3 papers, we select the top 3 by journal impact factor. This file has 4 records, so we feature the top 3 by IF.

Journal metrics used for selection (examples)
Microchemical Journal: JIF 5.1
AAPS PharmSciTech: JIF 4.0
The Journal of Physical Chemistry B: 2‑Year Impact Factor 2.9

Paper 1 : Dual-MIP PEDOT/nCuNi-nanocatalyst sensor for simultaneous detection of dopamine and vanillylmandellate

  • Authors: Demkiv, O; Stasyuk, N; Holdynski, M; Nogala, W; Gonchar, M
  • Journal: MICROCHEMICAL JOURNAL (2026)
  • Keywords: Molecularly imprinted polymer; Dual-template sensor; CuNi nanoparticles; Dopamine; Vanillylmandelic acid; Electrochemical detection
  • DOI: 10.1016/j.microc.2025.116746

One‑sentence summary

A βCD‑assisted dual molecularly imprinted electrochemical sensor enabling simultaneous, ultra‑sensitive detection of two biomarkers in urine

Key points

  • βCD provides host–guest inclusion to enhance selective capture of target analytes within the recognition layer.
  • CuNi nanoparticles amplify electrochemical signals to push detection limits to very low concentrations.
  • Validation with real urine samples shows strong agreement with HPLC, supporting point‑of‑care potential.

Possible applications

  • Point‑of‑care diagnostics and screening
  • Compact multi‑analyte sensing platforms
  • Design of βCD‑based selective recognition layers

Paper 2: Characterization of Eudragit Nanoparticle-Tailored β-Cyclodextrin/Thiolated Sodium Alginate/Polyethyleneglycol Polymer Hybrid as a Potential Bone Tissue Engineering Scaffold

  • Authors: Rahaman, J; Mukherjee, D
  • Journal: AAPS PHARMSCITECH (2026)
  • Keywords: bone tissue regeneration; eudragit nanoparticle; freeze-thaw; polymer hybrid scaffold; thiolated sodium alginate
  • DOI: 10.1208/s12249-025-03314-1

One‑sentence summary

A βCD/thiolated alginate/PEG hybrid hydrogel scaffold, tailored with nanoparticles, for potential bone tissue engineering

Key points

  • βCD’s hydrophobic cavity/hydrophilic exterior can strengthen intermolecular interactions and improve loading of functional components.
  • A freeze–thaw process forms a hydrogel without harsh chemical crosslinkers while tuning porosity and hydration.
  • In vitro biocompatibility and docking analyses suggest relevance for bone regeneration applications.

Possible applications

  • Scaffolds for bone regeneration
  • Drug‑releasing wound/bone materials
  • Biocompatible hydrogel processing routes

Paper 3 : Substituent Size and Interaction Type Shape Sulfonylurea-β-Cyclodextrin Binding Modes

  • Authors: Valencia-Ortega, M; Gutierrez-Flores, J; Huerta, EH; Ramos, E; Gomez-Balderas, R
  • Journal: JOURNAL OF PHYSICAL CHEMISTRY B (2026)
  • Keywords:
  • DOI: 10.1021/acs.jpcb.5c06056

One‑sentence summary

Computational insight into how βCD hosts sulfonylurea drugs: substituent size and weak‑interaction networks govern binding modes

Key points

  • Molecular dynamics and quantum chemistry identify dominant binding conformations and their populations.
  • Stabilization is driven by distributed weak interactions rather than a single strong directional hydrogen bond.
  • The results guide βCD‑based formulation strategies to improve solubility and stability of poorly soluble drugs.

Possible applications

  • Cyclodextrin inclusion complexes for solubility enhancement
  • Rational drug‑carrier design
  • Host–guest optimization using computation

References (featured in this page)

  1. Demkiv, O; Stasyuk, N; Holdynski, M; Nogala, W; Gonchar, M. Dual-MIP PEDOT/nCuNi-nanocatalyst sensor for simultaneous detection of dopamine and vanillylmandellate. MICROCHEMICAL JOURNAL (2026). DOI: 10.1016/j.microc.2025.116746
  2. Rahaman, J; Mukherjee, D. Characterization of Eudragit Nanoparticle-Tailored β-Cyclodextrin/Thiolated Sodium Alginate/Polyethyleneglycol Polymer Hybrid as a Potential Bone Tissue Engineering Scaffold. AAPS PHARMSCITECH (2026). DOI: 10.1208/s12249-025-03314-1
  3. Valencia-Ortega, M; Gutierrez-Flores, J; Huerta, EH; Ramos, E; Gomez-Balderas, R. Substituent Size and Interaction Type Shape Sulfonylurea-β-Cyclodextrin Binding Modes. JOURNAL OF PHYSICAL CHEMISTRY B (2026). DOI: 10.1021/acs.jpcb.5c06056

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