Fibrin_sealant

Fibrin glue

Fibrin glue

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Fibrin glue (also called fibrin sealant) is a surgical formulation used to create a fibrin clot for hemostasis, cartilage repair surgeries or wound healing. It contains separately packaged human fibrinogen and human thrombin.[8][9][10][11][12][13][14][15][16][17]

Quick Facts Combination of, Fibrinogen ...

Medical uses

This glue is used as a supportive treatment in surgery (such as liver surgery) for the improvement of hemostasis where standard surgical techniques are insufficient or impractical.[18][19]

It is also used for repairing dura mater tears and bronchial fistulas and for achieving hemostasis after spleen and liver trauma,[16] in "no sutures" corneal transplantation, pterygium excision with amniotic membrane or conjunctival autograft, and in eye trauma for corneal or conjunctival defects,[20][21][22] as well as for skin graft donor site wounds to reduce postoperative pain.[23]

It can also be used to treat pilonidal sinus disease but it is of unclear benefit as of 2017, due to insufficient research.[24]

Contraindications

The glue must not get into blood vessels, as this could lead to clotting in the form of thromboembolism or disseminated intravascular coagulation, or to anaphylaxis (a severe allergic reaction).[25]

Side effects

Possible adverse effects include bleeding disorder and allergic reactions such as flushing, stinging, generalised urticaria, angioedema, bronchospasm, and anaphylaxis. Other adverse effects in studies occurred in roughly equal proportions in treatment and placebo groups.[25]

Interactions

As fibrin glue contains proteins, it may be denatured by ethanol, iodine and heavy metals. These substances are frequently found in antiseptic solutions.[25]

Pharmacology

Mechanism of action

Thrombin is an enzyme that splits fibrinogen into fibrin monomers in 10 to 60 seconds, which aggregate to form a three-dimensional gel-like structure. Thrombin also activates factor XIII from the human body to factor XIIIa, which then cross-links the fibrin monomers to form a stable clot. Both these processes need calcium to work. As the wound heals, the clot is slowly degraded by the enzyme plasmin.[16][25][26]

Pharmacokinetics

In rabbit studies, only 1 to 2% of the applied thrombin dose reached the bloodstream. It reached highest blood plasma concentrations after 6 to 8 hours.[25]

Chemistry

Composition

Fibrin glue comes in two vials, respectively containing:

  • fibrinogen: lyophilised pooled human concentrate
  • thrombin: This used to be of bovine origin; modern formulations contain human thrombin.[11]

The two components are mixed immediately before application.[18][27] The formulations also contain calcium salts.[25]

Formulations from different manufacturers may also contain aprotinin, fibronectin, plasminogen, and factor XIII.[28][29]

Factors affecting structure

Factors that influence dimensional structure of fibrin gel giving rise to fine or coarse gel:

  • Changing concentration of fibrinogen
  • Changing concentration of thrombin – increased concentration increases ultimate tensile strength and Young modulus of gel
  • Changing concentration of calcium
  • pH
  • Temperature

History

A formulation with human thrombin was approved for medical use in the United States in March 2003, and in the European Union in October 2008.[18][27][30]

References

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    "Health product highlights 2021: Annexes of products approved in 2021". Health Canada. 3 August 2022. Retrieved 25 March 2024.
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    Irwin RM, Bonassar LJ, Cohen I, Matuska AM, Commins J, Cole B, Fortier LA (8 November 2019). "The clot thickens: Autologous and allogeneic fibrin sealants are mechanically equivalent in an ex vivo model of cartilage repair". PLOS ONE. 14 (11): e0224756. Bibcode:2019PLoSO..1424756I. doi:10.1371/journal.pone.0224756. PMC 6839864. PMID 31703078.
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    Shah NV, Meislin R (December 2013). "Current state and use of biological adhesives in orthopedic surgery". Orthopedics. 36 (12): 945–956. doi:10.3928/01477447-20131120-09. PMID 24579215.
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    Smith BL, Matuska AM, Greenwood VL, Gilat R, Wijdicks CA, Cole BJ (15 April 2022). "Autologous Fibrin Sealants Have Comparable Graft Fixation to an Allogeneic Sealant in a Biomechanical Cadaveric Model of Chondral Defect Repair". Arthroscopy, Sports Medicine, and Rehabilitation. 4 (3): e1075–e1082. doi:10.1016/j.asmr.2022.03.003. ISSN 2666-061X. PMC 9210474. PMID 35747626. S2CID 248208731.
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    Spotnitz WD, Mintz PD, Avery N, Bithell TC, Kaul S, Nolan SP (August 1987). "Fibrin glue from stored human plasma. An inexpensive and efficient method for local blood bank preparation". The American Surgeon. 53 (8): 460–462. PMID 2440358.
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    Mücke T, Wolff KD (2009). "Performing microvascular anastomosis with fibrin glue--faster, easier, and more reliable?". Microsurgery. 29 (1): 80–81. doi:10.1002/micr.20556. PMID 18946885. S2CID 31854904.
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    Narendran N, Mohamed S, Shah S (July 2007). "No sutures corneal grafting--a novel use of overlay sutures and fibrin glue in Deep Anterior Lamellar Keratoplasty". Contact Lens & Anterior Eye. 30 (3): 207–209. doi:10.1016/j.clae.2007.02.007. PMID 17379570.
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    Dal Pizzol MM, Roggia MF, Kwitko S, Marinho DR, Rymer S (2009). "[Use of fibrin glue in ocular surgery]" [Use of fibrin glue in ocular surgery]. Arquivos Brasileiros de Oftalmologia (in Portuguese). 72 (3): 308–312. doi:10.1590/s0004-27492009000300006. hdl:10183/37501. PMID 19668958.
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    Lund J, Tou S, Doleman B, Williams JP (January 2017). "Fibrin glue for pilonidal sinus disease". The Cochrane Database of Systematic Reviews. 1 (1): CD011923. doi:10.1002/14651858.CD011923.pub2. PMC 6464784. PMID 28085995.
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