Charbon actif pour la purification du sang
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Buy Blood Purification Activated Carbon
Activated charcoal is mainly used in blood purification using hemoperfusion. Hemoperfusion is the method where blood is taken extracorporeally (outside body) from the patient, and introduced to a cartridge or column of tiny granules of activated charcoal. The structure of activated charcoal consists of multiple pores, and amounts to a large surface area, which allows activated charcoal to adsorb a variety of toxins and metabolic waste products directly from the blood through physical adsorption and hydrophobic interactions. Activated charcoal is effective at removing small to medium-sized, unbound, and hydrophobic molecules as well as some protein-bound substances. Examples of agents that can be removed with activated charcoal are certain drugs (for example, barbiturates, theophylline), as well as toxins (for example, paraquat, Amanita phallotoxin) and uremic toxins (i.e. toxins related to liver failure or extreme poisoning.)
Les défis de l'industrie
Biocompatibility Concerns
- The presence of uncoated charcoal particles stimulates platelets and leukocytes, which can increase the chances of thrombosis, thus once a length of time goes by microparticles can be released during perfusion which can lead to microemboli creation but also necessitates complex polymer coatings (like cellulose acetate) which can also slow the rate of adsorption.
Limited Solute Removal Capacity
- Activated charcoal can remove small-to-medium size (<~10 kDa) hydrophobic toxins (toxins such as neurotoxic drugs and poisons), but charcoal is completely ineffectual against electrolytes, urea, or larger (~20+ kDa) protein bound uremic toxins, while also requiring hybrid systems - necessitating hemodialysis/hemofiltration - ultimately complicating the treatment protocol.
Selective Capability (adsorption)
- Non-specific adsorption studies will also remove relevant medications (likely antibiotics and anticoagulants) and nutrients alongside the target toxins, making it unmanageable to monitor therapy.
- Additionally, plasma proteins will also non-specifically absorb and compete for binding capacity for the target toxins, further recommending reducing binding capacity.
Material Standardization Issues
- Performance reproducibility is complicated by differences in pore structure and surface area for each source of charcoal.
- Biocompatible coatings on the charcoal can also have differences in durability, leading to leaking charcoal particles, or impaired adsorption capacity during sustained application.
Clinical Protocol Constraints
- Therapeutic protocols are limited due to decreased adsorption capacity and adverse effects to biocompatibility - they are not restricted to a single application.
- Any re-bound toxin release that may come from the charcoal during application may require multi-sessions.
types de charbon actif apparentés
-r8fslg51nt6wgjtvh6yldxb1gtkgm3lpe0oq1akgog.webp "颗粒活性炭(granular activated carbon)")
- Valeur en iode : 600-1200
- Taille des mailles : 1×4/4×8/8×16/8×30/12×40/20×40/20×50/30×60/40×70 (autres tailles sur demande)
- Densité apparente : 400-700
-r8fsli0q1h9h3rr567ruiwtynlb71ht629zozuhoc0.webp "Charbon actif à piliers")
- Valeur de l'iode : 500-1300
- Taille des mailles : 0,9-1mm/1,5-2mm/3-4mm/6mm/8mm(autres tailles sur demande)
- Densité apparente : 450-600
-r8fslbfupn0gui0p8mxgjghqhw7mjm31pdfamwrfjk.webp "粉末活性炭(Poudre de charbon actif)")
- Valeur de l'iode : 500-1300
- Maillage : 150/200/300/350 (autres dimensions sur demande)
- Densité apparente : 450 - 550
-r8fsle9da54btbwls65c8xs4a1tq6pe8prdr2qn90w.webp "蜂窝活性炭(Charbon actif en nid d'abeille)")
- Valeur en iode : 400-800
- Taille des mailles : 100×100×100mm/100×100×50mm (densité cellulaire personnalisée sur demande)
- Densité apparente : 350-450
- Diamètre de l'alésage:1.5-8mm
- Indice d'iode : 700-1200 mg/g
- Surface : 700-1200 m²/g
- Densité apparente : 320-550 kg/m³
- Indice d'iode : 700-1200 mg/g
- Surface : 700-1200 m²/g
- Densité apparente : 320-550 kg/m³
- Indice d'iode : 700-1200 mg/g
- Surface : 700-1200 m²/g
- Densité apparente : 300-650 kg/m³
- Indice d'iode : 700-1200 mg/g
- Surface : 700-1200 m²/g
- Densité apparente : 320-550 kg/m³
- Méthode d'activation : Activation par vapeur/gaz à haute température
- Structure des pores : Dominée par les micropores, distribution uniforme des pores
- Profil environnemental : Sans produits chimiques, faible teneur en cendres
- Applications principales : Adsorption en phase gazeuse, purification de l'eau potable
- Méthode d'activation : Activation chimique (par exemple, H₃PO₄/ZnCl₂) à des températures modérées.
- Structure des pores : Riche en mésopores, surface plus élevée
- Efficacité du processus : Temps d'activation plus court, rendement plus élevé 30-50%
- Post-traitement : Lavage à l'acide nécessaire pour éliminer les résidus
- Fonctionnalisation : Chargé d'agents actifs (par exemple, I₂/Ag/KOH)
- Adsorption ciblée : Amélioration de la capture de polluants spécifiques (par exemple, Hg⁰/H₂S/gaz acides).
- Personnalisation : Optimisation chimique pour les contaminants ciblés
- Applications principales : Traitement des gaz industriels, protection CBRN
Pourquoi utiliser notre charbon actif
Optimized Pore Structure:
Maximizes adsorption capacity for diverse toxins while preserving essential biomolecules.
Enhanced Biocompatibility Coating:
Minimizes platelet activation and microemboli risks during hemoperfusion.
Strictly Standardized Manufacturing
Ensures batch-to-batch consistency in adsorption performance and safety.
Surface chemistry customization:
Allows targeted removal of protein-bound uremic toxins or specific poisons.
Validated clinical performance:
Demonstrates reliable toxin clearance rates across critical care scenarios.
Processus et technologie
1. Hemoperfusion For Acute Poisoning
Aperçu de la solution
Direct blood circulation through charcoal-coated cartridges to rapidly adsorb ingested toxins/drugs before systemic absorption.
Principaux avantages
- Broad-spectrum adsorption: Neutralizes diverse toxins including barbiturates, pesticides, and mushroom toxins
- Hemodynamic stability: Maintains blood pressure better than whole-blood purification methods
- Rapid intervention: Shortens toxin half-life faster than conventional hemodialysis
- Portability: Enables bedside emergency deployment
2.ombined Hemodialysis-Hemoperfusion (HD-HP) for Uremia
Aperçu de la solution
Hybrid system pairing charcoal adsorption with conventional dialysis to address protein-bound uremic toxins.
Principaux avantages
- Enhanced toxin clearance: Removes both water-soluble (e.g., creatinine) and protein-bound (e.g., indoxyl sulfate) toxins
- Extended filter lifespan: Charcoal component protects dialyzer membranes from fouling
- Reduced inflammation: Lowers pro-inflammatory cytokines better than dialysis alone
- Symptom management: Better controls pruritus and neurological symptoms in renal failure
3. Hepatic Failure Support Systems
Aperçu de la solution
Charcoal columns integrated with albumin dialysis to adsorb liver failure-associated toxins like bilirubin and bile acids.
Principaux avantages
- Albumin regeneration: Clears albumin-bound toxins without albumin loss
- Bridge to transplantation: Stabilizes patients awaiting donor organs
- Multi-organ support: Simultaneously addresses renal and hepatic toxin accumulation
- Bilirubin reduction: Specifically targets jaundice-causing compounds