• Title/Summary/Keyword: Heparin-induced thrombocytopenia

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Heparin-induced Thrombocytopenia Type II after Free Flap Operation

  • Baek, Jiwoong;Park, Jung Hyun;Cha, In-Ho;Kim, Hyung Jun
    • Maxillofacial Plastic and Reconstructive Surgery
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    • v.35 no.6
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    • pp.408-411
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    • 2013
  • After radical excision of a tumor in the maxillofacial area, functional and esthetic reconstruction is needed, including flap surgery. Among the many etiologies of flap failure, venous thrombosis is one of the most frequent. Heparin is used routinely in the effort to avoid development of venous thrombosis. In rare cases, heparin-induced thrombocytopenia (HIT) type II occurs due to exposure to heparin. Heparin attached to platelet factor 4 forms a PF4/heparin-immunoglobulin G immune complex on platelet surfaces. This complex activates platelets, which leads to multiple coagulation in venous and arterial blood. We report here on a rare occurrence of HIT type II following fibula free flap surgery.

Open Heart Surgery in Patient with Heparin- Induced Thrombocytopenia (헤파린 기인성 혈소판감소증 환자에서의 개심술)

  • 송석원;홍유선;곽영란;안신기
    • Journal of Chest Surgery
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    • v.35 no.6
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    • pp.475-478
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    • 2002
  • A 45 year old man was admitted for aggravated dyspnea, abdominal distension and poor oral intake. On Echocardiogram, mitral stenosis(severe), tricuspid regurgitaion(IV), and LA thrombus were diagnosed. We used heparin with continuous infusion for prevention of systemic thrombo embolism. On the 11th day of admission, the patient showed thrombocytopenia and we suspected Heparin-induced thrombocytopenia. Hirudin was used in this case as alternative anticoagulant during cardiopulmonary bypass to prevent serious complication of heparin. The patient was recovered without any complication as postoperative bleeding or systemic thromboembolism.

The Management of Heparin-induced Thrombocytopenia with Thrombosis That Developed after Aortic Dissection Surgery (대동맥 박리증 수술 후 발생한 혈전증을 동반한 헤파린 기인성 혈소판 감소증의 치료)

  • Kim, Jae-Bum;Park, Nam-Hee;Choi, Sae-Young
    • Journal of Chest Surgery
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    • v.43 no.5
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    • pp.538-541
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    • 2010
  • Heparin-induced thrombocytopenia (HIT) is a clinicopathologic condition and adverse drug reaction caused by immunoglobulin G (IgG) antibodies directed against the heparin-platelet factor 4 complex. HIT with thrombosis (HITT) could lead to limb amputation, stroke, myocardial infarction, and death. We report on the successful management of a HITT patient with argatroban therapy.

COVID-19 vaccine-induced immune thrombotic thrombocytopenia: a review

  • Siti Nur Atikah Aishah Suhaimi;Izzati Abdul Halim Zaki;Zakiah Mohd Noordin;Nur Sabiha Md Hussin;Long Chiau Ming;Hanis Hanum Zulkifly
    • Clinical and Experimental Vaccine Research
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    • v.12 no.4
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    • pp.265-290
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    • 2023
  • Rare but serious thrombotic incidents in relation to thrombocytopenia, termed vaccine-induced immune thrombotic thrombocytopenia (VITT), have been observed since the vaccine rollout, particularly among replication-defective adenoviral vector-based severe acute respiratory syndrome coronavirus 2 vaccine recipients. Herein, we comprehensively reviewed and summarized reported studies of VITT following the coronavirus disease 2019 (COVID-19) vaccination to determine its prevalence, clinical characteristics, as well as its management. A literature search up to October 1, 2021 using PubMed and SCOPUS identified a combined total of 720 articles. Following the PRISMA (Preferred Reporting Items for Systematic Reviews and Meta-Analyses) guideline, after screening the titles and abstracts based on the eligibility criteria, the remaining 47 full-text articles were assessed for eligibility and 29 studies were included. Findings revealed that VITT cases are strongly related to viral vector-based vaccines, which are the AstraZeneca COVID-19 vaccine (95%) and the Janssen COVID-19 vaccine (4%), with much rarer reports involving messenger RNA-based vaccines such as the Moderna COVID-19 vaccine (0.2%) and the Pfizer COVID-19 vaccine (0.2%). The most severe manifestation of VITT is cerebral venous sinus thrombosis with 317 cases (70.4%) and the earliest primary symptom in the majority of cases is headache. Intravenous immunoglobulin and non-heparin anticoagulant are the main therapeutic options for managing immune responses and thrombosis, respectively. As there is emerging knowledge on and refinement of the published guidelines regarding VITT, this review may assist the medical communities in early VITT recognition, understanding the clinical presentations, diagnostic criteria as well as its management, offering a window of opportunity to VITT patients. Further larger sample size trials could further elucidate the link and safety profile.

Fixed Dose Regimen of Heparin Administration with Activated Coagulation Time During Cardiopulmonary Bypass (심폐바이패스시 활성응고시간을 이용한 헤파린 고정용량법)

  • 김원곤;박성식
    • Journal of Chest Surgery
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    • v.31 no.9
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    • pp.867-872
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    • 1998
  • Background: The fixed dose regimen with activated coagulation time(ACT) is the most commonly employed method for determining the required dosage of heparin and protamine during cardiopulmonary bypass(CPB). Material and Method: We performed a prospective study on a fixed dose regimen for analyzing adequate dosages of heparin and protamine, the incidence of heparin resistance and heparin-induced thrombocyt openia, factors affecting ACT during CPB, and changes of ACT during aprotinin usage. 300 units/kg of heparin were administered to patients, and ACTs were measured after 5 mins. ACTs were checked at 10 mins and 30 mins after the onset of CPB, and then at 30 min intervals thereafter. If the measured ACT was under 400 secs, we added 100 units/kg of heparin. The heparin was reversed with 1 mg of protamine for each 100 units administered. If the measured ACT was longer than 130 secs 30 mins after protamine administration or if there was definitive evidence of a coagulation defect, we administered a further 0.5 mg/kg of protamine. Result: We studied 80 patients(50 adults and 30 children) who underwent open heart surgery(OHS) at Seoul National University Hospital. Preoperative ACT was 114.3${\pm}$19.3 secs in adults, and 119.5${\pm}$18.2 secs in children. There were no differences in preoperative ACT due to age, body weight, body surface area, or sex. The preoperative ACT was not influenced by a positive past history of OHS. Ten adults(20%) and 3 pediatric patients(10%) needed additional doses of heparin to maintain the ACT above 400 secs. Additional protamine administration was needed in 9 adults(18%) and 10 children(33%). Heparin resistance was found in only two adults. Heparin-induced thrombocytopenia was detected in 2 adults and 1 child. During CPB, ACT was prolonged. 12 adult patients received a low dose of aprotinin and showed longer celite activated ACT compared to the control group.The kaolin activated ACT showed a lower tendency than the celite activated ACT in aprotinin users. Conclusion: In conclusion, fixed dose regimen of heparin and protamine can be used without significant problems, but the incidence of need of additional dosage remains unsatisfactory.

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