===== N-hexyl Cyanoacrylate ===== **N-hexyl [[cyanoacrylate]]** (NHCA) is a fast-polymerizing liquid embolic agent used in endovascular procedures to occlude blood vessels in the treatment of vascular malformations, such as arteriovenous malformations (AVMs) and dural arteriovenous fistulas (dAVFs). ==== 🔬 Chemical Description ==== > ''NHCA is a long-chain alkyl derivative of cyanoacrylate, composed of monomers that rapidly polymerize upon contact with ionic fluids (e.g., blood or saline), forming a solid cast within the vessel.'' NHCA is part of the **cyanoacrylate family** of adhesives, differing from shorter-chain compounds (e.g., n-butyl cyanoacrylate, NBCA) by its: * **Slower polymerization speed** * **Greater flexibility and control during injection** * **Improved radiopacity when mixed with Lipiodol** ===== NHCA vs NBCA: Comparative Summary ===== **Cyanoacrylates** are fast-polymerizing liquid embolic agents used in endovascular procedures. The two most used types in neurointervention are: * **NBCA** = N-butyl cyanoacrylate * **NHCA** = N-hexyl cyanoacrylate ==== 🧪 Chemical Structure ==== * **NBCA**: Shorter alkyl chain (4 carbon atoms) * **NHCA**: Longer alkyl chain (6 carbon atoms) → Longer chains polymerize **more slowly**, allowing greater control. ==== ⏱️ Polymerization Speed ==== * **NBCA**: Very fast polymerization → hard to control * **NHCA**: Slower polymerization → more time to reach the nidus → NHCA is more **forgiving** during injection. ==== 🧬 Handling Characteristics ==== * **NBCA**: Higher risk of **catheter entrapment**, requires rapid and decisive injection * **NHCA**: Easier manipulation, more predictable penetration, especially when diluted 1:4 with Lipiodol ==== 🎯 Target Penetration ==== * **NBCA**: Often used for **proximal feeder** embolization or high-flow AVMs * **NHCA**: Better suited for **deep intranidal** penetration due to slower flow and better control ==== 🧯 Risk of Non-target Embolization ==== * **NBCA**: Higher risk due to abrupt polymerization * **NHCA**: Lower risk with proper dilution and technique ==== 💰 Cost and Availability ==== * **NBCA**: Widely available, inexpensive * **NHCA**: Slightly higher cost, less widely available ==== 💉 Common Dilution Agent ==== * Both are typically diluted with **Lipiodol** to modulate polymerization and increase radiopacity ==== 🧠 Clinical Use Cases ==== ^ Use Case ^ NBCA ^ NHCA ^ | High-flow AVMs | ✅ | ⚠️ | | Deep nidus penetration | ⚠️ | ✅ | | Preoperative devascularization | ✅ | ✅ | | Risky anatomy with tortuous feeders | ⚠️ | ✅ | ==== ⚠️ Limitations ==== * Both are **permanent**, **non-resorbable**, and carry risk of embolizing healthy tissue * Require experienced operators * Neither offers the **plug-and-push** properties of agents like Onyx or PHIL ==== 📎 References ==== * Murias Quintana E, et al. *Use of NHCA...* Cureus. 2025;17(5):e84290. * Chapot R, et al. *Neurointerventional embolic agents: a technical and practical overview.* ==== 💉 Clinical Application ==== NHCA is used as a **liquid embolic agent** in: * Intranidal AVM embolization * Preoperative devascularization * Arterial feeder occlusion * Treatment of superficial vascular malformations * Selected dAVFs ==== 🧪 Formulation and Delivery ==== * Commonly diluted with **Lipiodol** (usually 1:3 to 1:4 ratio) to modulate viscosity and radiopacity. * Requires **coaxial microcatheter systems** and precise control to avoid non-target embolization. * Compatible with **DMSO-free catheters**, unlike Onyx or PHIL. ==== ✅ Advantages ==== * Deep intranidal penetration possible * Fast solidification on contact with blood * No need for DMSO-compatible devices * Lower cost compared to Onyx ==== ⚠️ Limitations and Risks ==== * Risk of catheter entrapment if not withdrawn promptly * Permanent and non-resorbable * Potential for **non-target embolization** * Rapid polymerization can be difficult to control in tortuous anatomy * No long-term outcome data for some formulations (e.g., NHCA vs. NBCA) ==== 🧠 Related Agents ==== * NBCA (n-butyl cyanoacrylate) * Onyx (ethylene-vinyl alcohol copolymer) * PHIL (precipitating hydrophobic injectable liquid) * Squid (EVOH-based) ===== Case series ===== In a retrospective single-center [[case series]] (n=22 patients, 24 procedures) with no [[control group]] or [[comparison]], Murias Quintana et al. from the Hospital Universitario Central de Asturias, [[Oviedo]], Hospital Clínic de [[Barcelona]], Hospital Universitario Marqués de Valdecilla, [[Santander]], Alfried Krupp Krankenhaus, [[Essen]], Hospital Universitario de [[Salamanca]] ((Murias Quintana E, Rodríguez Castro J, Puig J, Gil García A, Chapot R, Maestro V, Llibre JC, Gutiérrez Morales JC, García Arias F, Vega P. Use of [[N-hexyl Cyanoacrylate]] [[Monomer]]s for the [[Treatment]] of Intra- and Extracranial [[Arteriovenous Malformation]]s: A Single-Center Experience. Cureus. 2025 May 17;17(5):e84290. doi: 10.7759/cureus.84290. PMID: 40525034; PMCID: PMC12169607.)) aim to describe outcomes after the use of N-hexyl cyanoacrylate (NHCA, "Magic Glue") for AVM embolization. Despite its stated aim of evaluating "strengths and limitations," the article offers a one-sided, promotional narrative that lacks critical analysis. ===== 🧱 Structural and Conceptual Weaknesses ===== === 1. Journal-Level Issues: "Cureus Syndrome" === The journal *[[Cureus]]* is increasingly known for: * Minimal [[peer review]] * Inflated author lists * A tendency to prioritize upload speed over [[scientific rigor]] This paper reinforces that [[reputation]], providing more of a procedural diary than a peer-reviewed study. It embodies [[editorial complacency]] and [[academic dilution]]. === 2. Lowest Tier of Evidence === A retrospective case series offers no comparative insight. There is: * No [[randomization]] * No [[control group]] * No[[ prospective]] [[outcome]] [[measure]]s This is not [[hypothesis]]-[[test]]ing [[research]] — it’s purely [[observational]], anecdotal reporting. ===== 📉 Methodological Limitations ===== === 3. "Success" Is Redefined to Mean Nothing === The paper defines ''[[technical success]]'' as “the outcome achieved based on objective.” This is circular reasoning and renders the concept of success meaningless. === 4. Data Dump of Technical Details === Injection times and catheter models are listed with obsessive detail: * HeadWay Duo 167 cm in 70.8% * Magic 1.2F in the rest * Injection times: 27 seconds to 9 minutes 38 seconds Yet none of these details translate to improved patient care or clinical insight. === 5. Zero Complications ≠ Safety === No [[adverse event]]s in 24 procedures cannot be extrapolated as “[[safe]].” This [[cohort]] is underpowered to detect rare but serious complications — a classic false sense of [[security]]. ===== 🤹 Interpretation Bias and Overreach ===== === 6. 12.5% Success = "Effective"? === Only '''3 out of 24 cases (12.5%)''' achieved complete occlusion with a single NHCA injection. The authors still call it "effective." This is an example of: * ::unjustified enthusiasm:: * ::intellectual dishonesty:: === 7. Promotional Tone === Frequent use of the term "Magic Glue" and positive adjectives for NHCA give this paper the tone of a product brochure, not a neutral scientific analysis. ===== 🧠 What's Missing? ===== Key omissions include: * No clinical or imaging follow-up data * No outcome measures beyond technical success * No comparison with other embolic agents (Onyx, PHIL, Squid) * No cost-benefit analysis * No discussion of failure cases or limitations in complex AVMs ===== 🧾 Conclusion ===== This paper does not meet the standards of a rigorous scientific study. It provides: * No high-quality evidence * No clinically useful guidance * No long-term data It reinforces the perception of *Cureus* as a platform for uploading technically correct but scientifically irrelevant work. A procedural note disguised as research, this article is a missed opportunity to meaningfully contribute to the field of neurointerventional radiology. **Final [[Verdict]]:** This is not a "[[study]]" — it is a [[technical anecdote]] polished with promotional language and framed in a journal that too often rewards upload volume over scientific substance. ==== 📎 References ====