BACKGROUND: Deep venous thrombosis (DVT) arises with an incidence of about 1 per 1000 persons per year; 4-10% of all DVTs are located in an upper extremity (DVT-UE). DVT-UE can lead to complications such as post-thrombotic syndrome and pulmonary embolism and carries a high mortality.
METHODS: This review is based on pertinent literature, published from January 1980 to May 2016, that was retrieved by a systematic search, employing the PRISMA criteria, carried out in four databases: PubMed (n = 749), EMBASE (n = 789), SciSearch (n = 0), and the Cochrane Library (n = 12). Guidelines were included in the search.
RESULTS: DVT-UE arises mainly in patients with severe underlying diseases, especially cancer (odds ratio [OR] 18.1; 95% confidence interval [9.4; 35.1]). The insertion of venous catheters-particularly central venous catheters-also elevates the risk of DVT-UE. Its clinical manifestations are nonspecific. Diagnostic algorithms are of little use, but ultrasonography is very helpful in diagnosis. DVT-UE is treated by anticoagulation, with heparin at first and then with oral anticoagulants. Direct oral anticoagulants are now being increasingly used. The thrombus is often not totally eradicated. Anticoagulation is generally continued as maintenance treatment for 3-6 months. Interventional techniques can be used for special indications. Patients with DVT-UE have a high mortality, though they often die of their underlying diseases rather than of the DVT-UE or its complications.
CONCLUSION: DVT of the upper extremity is becoming increasingly common, though still much less common than DVT of the lower extremity. The treatment of choice is anticoagulation, which is given analogously to that given for DVT of the lower extremity.
BACKGROUND: We update recommendations on 12 topics that were in the 9th edition of these guidelines, and address 3 new topics.
METHODS: We generate strong (Grade 1) and weak (Grade 2) recommendations based on high- (Grade A), moderate- (Grade B), and low- (Grade C) quality evidence.
RESULTS: For VTE and no cancer, as long-term anticoagulant therapy, we suggest dabigatran (Grade 2B), rivaroxaban (Grade 2B), apixaban (Grade 2B), or edoxaban (Grade 2B) over vitamin K antagonist (VKA) therapy, and suggest VKA therapy over low-molecular-weight heparin (LMWH; Grade 2C). For VTE and cancer, we suggest LMWH over VKA (Grade 2B), dabigatran (Grade 2C), rivaroxaban (Grade 2C), apixaban (Grade 2C), or edoxaban (Grade 2C). We have not changed recommendations for who should stop anticoagulation at 3 months or receive extended therapy. For VTE treated with anticoagulants, we recommend against an inferior vena cava filter (Grade 1B). For DVT, we suggest not using compression stockings routinely to prevent PTS (Grade 2B). For subsegmental pulmonary embolism and no proximal DVT, we suggest clinical surveillance over anticoagulation with a low risk of recurrent VTE (Grade 2C), and anticoagulation over clinical surveillance with a high risk (Grade 2C). We suggest thrombolytic therapy for pulmonary embolism with hypotension (Grade 2B), and systemic therapy over catheter-directed thrombolysis (Grade 2C). For recurrent VTE on a non-LMWH anticoagulant, we suggest LMWH (Grade 2C); for recurrent VTE on LMWH, we suggest increasing the LMWH dose (Grade 2C).
CONCLUSIONS: Of 54 recommendations included in the 30 statements, 20 were strong and none was based on high-quality evidence, highlighting the need for further research.
Idiopathic thromboembolic disease presents a high risk of recurrence. There is controversy about the effects of aspirin in reducing this risk after the completion of anticoagulant treatment. Searching in Epistemonikos database, which screens 30 databases, we identified four systematic reviews that together include two randomized trials. We combined the evidence using meta-analysis and generated a summary of findings table following the GRADE approach. We concluded that aspirin administered after having completed anticoagulation reduces the risk of recurrence, probably without importantly increasing the risk of hemorrhage.
BACKGROUND: Colorectal cancer (CRC) is the third most commonly diagnosed cancer in both men and women in the United States (U.S.). Aspirin may inhibit CRC development and related mortality.
PURPOSE: We conducted this systematic evidence review on aspirin use for the prevention of CRC to support the U.S. Preventive Services Task Force (USPSTF) in updating its previous recommendation. Our review addressed four key questions in adults without a history of CRC, familial adenomatous polyposis, or Lynch Syndrome: 1) Does regular aspirin use reduce CRC mortality or all-cause mortality? 2) Does regular aspirin use reduce the incidence of CRC? 3) Does regular aspirin use reduce the incidence of colorectal adenoma? 4) What are the harms of regular aspirin use for the prevention of colorectal cancer?
DATA SOURCES: We performed a search of MEDLINE, PubMed, and the Cochrane Collaboration Registry of Controlled Trials for studies published from January 2004 through May 2014. We supplemented searches by examining bibliographies from previous systematic reviews, retrieved articles, and the previous USPSTF review. We searched federal agency trial registries for ongoing and/or unpublished trials.
STUDY SELECTION: We conducted a dual review of 865 abstracts against prespecified inclusion criteria. We retrieved 149 potentially relevant articles, which two reviewers independently evaluated using well-defined inclusion/exclusion criteria and critically appraised for risk of bias. Discrepancies were resolved by discussion with a third reviewer.
DATA EXTRACTION AND ANALYSIS: For all fair-quality and good-quality studies, a single investigator extracted study characteristics and outcomes into structured tables and a second investigator verified accuracy. Elements abstracted for each study included study design, population characteristics, sample sizes, exposures, outcomes, and measures of association. We created summary evidence tables to capture key study characteristics and sources of heterogeneity. In addition to the overall results for each included study, we also presented results by dose, duration, latency, and adenoma history where possible. We used forest plots stratified by potentially important exposure and study characteristics to visually identify patterns in the study results and help determine if pooling across studies was appropriate. We used the Mantel-Haenszel fixed effects model to estimate the combined effect and confidence interval; for very rare events (incidence less than one percent), we calculated the Peto odds ratio.
RESULTS: Daily or alternate-day aspirin at ≥75 mg was associated with a small reduction in all-cause mortality risk in the first 10 years after randomization (summary relative risk, RR, 0.94, [95% confidence interval, CI, 0.89 to 0.99]) in 11 randomized controlled trials (RCTs) among persons in the general population (i.e., selected without considering their adenoma history). Over a 20+ year period, aspirin appeared to reduce the risk of CRC mortality by approximately 33%. However, long-term data on CRC mortality may have limited applicability, particularly from the perspective of a low-dose aspirin benefits in a primary CVD population addressing women as well as men. Two of four trials were in those with pre-existing cardiovascular disease and two involved dosages of 500 mg or greater daily, with no longer-term mortality results available for alternate-day regimens. Data on mortality among persons with a prior colorectal adenoma were also sparse. Six RCTs of aspirin for primary and secondary CVD prevention provided data on the effect of regular aspirin use on invasive CRC incidence in the general population. In this population, aspirin had no effect on CRC incidence in the first 10 years following randomization, but reduced CRC incidence by approximately 40 percent after a latency of 10 years (summary RR, 0.60 [95% CI, 0.47 to 0.76]). Over a 20+ year period, aspirin appeared to reduce the risk of CRC incidence by approximately 20 to 24%. Data on aspirin use and CRC incidence in persons with a prior adenoma were limited and represented only short-term followup (fewer than 5 years) and could not, therefore, provide sufficient information on the effect of aspirin use on CRC incidence. In persons with a prior adenoma, data were conflicting, but there was some suggestion of a decreased risk of adenoma incidence over a 3- to 4- year period. Data on aspirin and adenoma risk in the general population were sparse. Data from RCTs suggested that aspirin increased the risk of serious gastrointestinal bleeding (summary OR, 1.94 [95% CI, 1.44 to 2.62]), intracranial bleeding (summary OR, 1.53 [95% CI, 1.21 to 1.93]), and hemorrhagic stroke (summary OR, 1.47 [95% CI, 1.16 to 1.88]), but not fatal gastrointestinal bleeding (summary OR, 1.00 [95% CI, 0.43 to 2.36]).
LIMITATIONS: Limited data were available to address differences in possible effects of aspirin in subgroups (e.g., age, sex, race) or to compare daily vs. alternate-day aspirin use. Long-term followup data were not identified for persons with a history of adenoma.
CONCLUSIONS: Aspirin appears to reduce the risk of CRC incidence after an induction and latency period of approximately 10 years, with a similar effect on CRC mortality. The applicability of data for long-term effects of low-dose aspirin on CRC mortality, however, is limited, particularly in the context of a population selected for primary CVD prevention. Aspirin does not appear to have a strong effect on all-cause mortality within 10 years of initiating use, and data on long-term cumulative risk of all-cause mortality were sparse.
CONTEXTE: Cet article porte sur le traitement de la maladie de TEV.
MÉTHODES: Nous avons généré une forte (Grade 1) et la faiblesse des recommandations (Grade 2) Sur la base (Grade A), (Grade B), et les preuves de haute qualité de qualité moyenne à faible qualité (grade C).
RÉSULTATS: Pour thrombose veineuse profonde aiguë ou d'embolie pulmonaire (EP), nous recommandons un traitement initial de l'anticoagulant par voie parentérale (Grade 1B) ou anticoagulation par rivaroxaban. Nous suggérons héparine de bas poids moléculaire (HBPM) ou le fondaparinux sur IV héparine non fractionnée (Grade 2C) ou sous-cutanée d'héparine non fractionnée (Grade 2B). Nous suggérons un traitement thrombolytique pour PE avec hypotension (Grade 2C). Pour TVP proximale ou une EP, nous recommandons un traitement de 3 mois sur des périodes plus courtes (Grade 1B). Pour une première thrombose veineuse profonde proximale ou EP qui est provoquée par une chirurgie ou par un facteur de risque transitoire non chirurgicale, nous recommandons 3 mois de traitement (1b année; Grade 2B si provoquée par un facteur de risque non chirurgicale et le risque faible ou modéré saignements), qui est sans provocation , nous vous proposons un traitement prolongé si le risque de saignement est faible ou modérée (Grade 2B) et nous recommandons 3 mois de traitement si le risque de saignement est élevé (Grade 1B), et qui est associée à un cancer actif, nous recommandons un traitement prolongé (Grade 1B, 2B grade en cas de risque élevé de saignement) et de proposer des HBPM sur les antagonistes de la vitamine K (Grade 2B). Nous suggérons des antagonistes de la vitamine K ou HBPM sur dabigatran ou rivaroxaban (Grade 2B.) Nous suggérons des bas de contention pour éviter le syndrome post-thrombotique (Grade 2B). Pour une thrombose veineuse superficielle, nous vous suggérons fondaparinux prophylactique à dose unique ou HBPM plus aucune anticoagulation (Grade 2B), et suggérons fondaparinux sur HBPM (Niveau 2C).
CONCLUSION: Des recommandations fortes s'appliquent à la plupart des patients, alors que les recommandations faibles sont sensibles aux différences entre les patients, y compris leurs préférences.
CONTEXTE: La décision d'arrêter l'anticoagulation après un épisode de thrombo-embolie veineuse (TEV) dépend du risque de récidive. Un certain nombre de facteurs de risque abordés récemment qui ne sont pas couramment utilisées en pratique clinique pourrait être utile pour l'identification des patients présentant un faible risque de récidive. OBJECTIFS: L'objectif de cette étude était de déterminer la valeur prédictive négative et le rapport de vraisemblance de l'absence de chacun de ces facteurs chez les patients ayant un ETEV. Les patients et méthodes: Nous avons effectué une revue systématique de la littérature, ou calculées des valeurs prédictives négatives et rapports de vraisemblance, et résume les données probantes disponibles. RÉSULTATS: Un négatif de D-dimères résultat, non-élevée au niveau de facteur VIII et de génération de thrombine non-élevée après l'arrêt du traitement anticoagulant, le sexe féminin et l'emplacement distale peut être utile pour déterminer un faible risque de récidive chez les patients ayant un ETEV. Chacune de ces facteurs est individuellement associée à une valeur prédictive négative de la survie sans récidive dans les 2-3 prochaines années d'environ 90% (avec un risque à priori d'environ 85%), avec les rapports de vraisemblance négatifs entre 0,8 et 0,5. Certains des facteurs de risque pour l'événement VTE (FV Leiden et la mutation de prothrombine) ne sont pas du tout utile pour la prédiction de la non-récurrence. CONCLUSIONS: Aucun des facteurs de risque que nous avons identifiés est assez fort sur son propre pour guider le traitement. Combinaisons de facteurs de risque pourrait être plus utile, mais des données supplémentaires sur l'indépendance de ces facteurs sont nécessaires avant une règle de prédiction peuvent être conçus.
Deep venous thrombosis (DVT) arises with an incidence of about 1 per 1000 persons per year; 4-10% of all DVTs are located in an upper extremity (DVT-UE). DVT-UE can lead to complications such as post-thrombotic syndrome and pulmonary embolism and carries a high mortality.
METHODS:
This review is based on pertinent literature, published from January 1980 to May 2016, that was retrieved by a systematic search, employing the PRISMA criteria, carried out in four databases: PubMed (n = 749), EMBASE (n = 789), SciSearch (n = 0), and the Cochrane Library (n = 12). Guidelines were included in the search.
RESULTS:
DVT-UE arises mainly in patients with severe underlying diseases, especially cancer (odds ratio [OR] 18.1; 95% confidence interval [9.4; 35.1]). The insertion of venous catheters-particularly central venous catheters-also elevates the risk of DVT-UE. Its clinical manifestations are nonspecific. Diagnostic algorithms are of little use, but ultrasonography is very helpful in diagnosis. DVT-UE is treated by anticoagulation, with heparin at first and then with oral anticoagulants. Direct oral anticoagulants are now being increasingly used. The thrombus is often not totally eradicated. Anticoagulation is generally continued as maintenance treatment for 3-6 months. Interventional techniques can be used for special indications. Patients with DVT-UE have a high mortality, though they often die of their underlying diseases rather than of the DVT-UE or its complications.
CONCLUSION:
DVT of the upper extremity is becoming increasingly common, though still much less common than DVT of the lower extremity. The treatment of choice is anticoagulation, which is given analogously to that given for DVT of the lower extremity.
