Home Prothrombin Time Monitoring - CAM 10114HB

Description:
Patients who are prescribed chronic warfarin anticoagulation need ongoing monitoring that has generally taken place in a physician’s office or anticoagulation clinic. Home prothrombin monitoring with a U.S. Food and Drug Administration (FDA)-approved device is proposed as an alternative to office or laboratory-based testing.

Data from multiple randomized controlled trials (RCTs) consistently demonstrate that the use of self-monitoring in patients who are initially managed in a clinical setting results in an increased time in the therapeutic range. Based on prior research, it is likely that time in therapeutic International Normalized Ratio (INR) is associated with improved health outcomes. Some studies also report a lower rate of hemorrhagic or embolic events, but this evidence is limited by high dropout and noncompliance rates that may have created imbalances between treatment groups. The evidence includes monitoring in several chronic conditions such as mechanical heart valves, chronic atrial fibrillation and deep venous thrombosis and, therefore, comparable results should be able to be obtained in other similar, but less prevalent, conditions that require continuous anticoagulation. Thus, based on the evidence and clinical context, home prothrombin time monitoring may be considered medically necessary for patients with chronic conditions that require continuous oral anticoagulation with warfarin who are able to self-monitor and who have undergone initial, clinic-based anticoagulation management for at least 3 months. 

The evidence is insufficient to conclude that the use of initial self-monitoring improves the net health outcome. RCTs with sufficiently large samples that report health outcomes are needed to more thoroughly evaluate the safety and efficacy of home prothrombin time monitoring from the start of treatment. Therefore, the use of home monitoring during the initial treatment period is considered investigational.

Background
Warfarin is an effective anticoagulant for the treatment and prevention of venous and arterial thrombosis. Chronic warfarin therapy is recommended in all patients with mechanical heart valves and in some patients with chronic AF (i.e., patients with risk factors that indicate a higher likelihood of stroke). Patients with mechanical heart valves are frequently prescribed anticoagulants at higher levels than patients given anticoagulants for other indications, which puts them at higher risk of complications from warfarin therapy. Appropriate levels of warfarin anticoagulation are monitored with periodic prothrombin time measurements, as measured by the INR. The target INR range is 2.0 to 3.0 for most patients. An INR result greater than 3 indicates an increased risk of serious hemorrhage, while an INR less than 2 is associated with an increased risk of stroke. An INR of 6 indicates an increased risk of developing a serious bleed nearly 7 times that of someone with an INR less than 3. Therefore, monitoring of the prothrombin time is recommended to ensure that the prescribed dosing regimens result in INRs within the therapeutic range. Anticoagulation can be monitored: in the physician's office (usually once a month), at an anticoagulation clinic (usually once every 2 – 3 weeks) or at home.

For home prothrombin time monitoring to be effective, patients need to be appropriately trained and able to generate INR test results comparable to laboratory measures. Moreover, the clinical impact of home prothrombin time monitoring is related to improved warfarin management. Specifically, home prothrombin time monitoring permits more frequent monitoring and self-management of warfarin therapy with the ultimate goal of (1) increasing the time that the anticoagulation is within a therapeutic INR range (intermediate health outcome) and (2) decreasing the incidence of thromboembolic or hemorrhagic events (final health outcome). Home self-monitoring is typically associated with some form of self-management of warfarin therapy. In some cases, the patient may be supplied with treatment algorithms and instructed to alter the dose based on the results of self-monitoring. In other cases, the patient may be instructed to provide the results of the self-monitoring (e.g., on the telephone or internet) and receive instructions on warfarin dosage.

Regulatory Status
In January 2007, the CoaguChek® XS System (patient self-testing) (Roche Diagnostics Corp) was cleared for marketing by FDA through the 510(k) process. FDA determined that this device was substantially equivalent to existing devices, including the CoaguChek SX System (professional, cleared in 2006). Other than a labeling change, the device is identical to the professional version of the CoaguChek XS System. The patient self-testing system is intended for self-monitoring of prothrombin time in patients who are on a stable regimen of anticoagulation medications.

Other devices cleared by FDA for home prothrombin time monitoring include the ProTime® Microcoagulation System (International Technidyne Corporation) and the Alere (formerly Hemosense) INRatio® 2 PT/INR Monitoring System.

Policy:
At-home monitoring of chronic warfarin therapy may be considered MEDICALLY NECESSARY in patients who require continuous anticoagulation for chronic conditions. These conditions include:

  1. Patients with mechanical heart valves. 
  2. Patients who require anticoagulation to similar levels as a mechanical heart valve (i.e., an INR greater than 3).

Before initiation of at-home monitoring, patients must have undergone anticoagulation management for at least 3 months.

Medical Appropriateness
Patient must meet all of these conditions:

  1. Duration of warfarin treatment is expected for six months or longer.
  2. Prothrombin time monitoring is required at least once a week.
  3. Documentation that the individual or caregiver has been trained and is capable of performing the test accurately.
  4. Documentation of action plan for abnormal test results.

Home prothrombin time monitoring for anticoagulation management of other conditions/diseases is considered INVESTIGATIONAL.

Any device utilized for this procedure must have FDA approval specific to the indication; otherwise, it is considered INVESTIGATIONAL.

Rationale:
The preferred study design to evaluate home prothrombin time (PT) monitoring is a randomized controlled trial (RCT) comparing home PT monitoring with either monitoring in a physician's office or monitoring in specialized coagulation clinics. As with any monitoring technology, one would ideally want to isolate the contribution of the monitored data itself from the possible impact of increased patient education or contact with health professionals that is typically associated with more intense monitoring. Final health outcomes would preferably focus on the incidence of hemorrhagic or embolic events. However, due to the low incidence of these events, published studies often report instead the intermediate outcome of time spent in the therapeutic range of warfarin, as measured by the international normalized ratio (INR). Prior research has established a strong link between time outside the therapeutic range and adverse events such as bleeding and thromboembolism. Therefore, time in the therapeutic range is a useful intermediate outcome for true health outcomes in this situation.

Home Monitoring During Maintenance Therapy
Most studies of home PT monitoring include patients who are already being treated with Coumadin, and therefore evaluate home monitoring in the setting of maintenance therapy. A 2010 Cochrane review evaluated the impact of self-monitoring and self-management of oral anticoagulation compared with standard monitoring.1 Self-monitoring referred to use of point-of-care testing and self-management, which additionally involved having patients interpret the results and adjust the dose of medication themselves. The authors identified 18 RCTs (total N = 4,723 participants). The review identified 6 trials on self-monitoring, 11 trials on self-management and 1 trial that reported both outcomes. (In reporting the findings, the term “home monitoring” will refer to self-monitoring or self-management). Three trials included only patients with mechanical heart valves (MHVs), 2 trials included patients with atrial fibrillation (AF) and 13 trials included patients with a mix of indications for oral anticoagulation. A pooled analysis of data from all 18 trials found that, compared with standard therapy, home monitoring reduced thromboembolic events by half (relative risk [RR], 0.50; 95% confidence interval (CI), 0.36 to 0.69). This difference was statistically significant (p < 0.001). The intervention effect was larger in the self-management studies (pooled RR = 0.47; 95% CI, 0.31 to 0.70; p < 0.001) than in the self-monitoring studies (pooled RR = 0.57; 95% CI, 0.32 to 1.00; p = 0.05). A pooled analysis of data from 9 trials found a statistically significant reduction in mortality with home monitoring compared with standard therapy (pooled RR = 0.64; 95% CI, 0.46 to 0.89; p = 0.007). In terms of potential harms, a pooled analysis of data from 14 trials did not find a significant difference in the risk of major hemorrhage with standard therapy compared with home monitoring. The relative risk was 0.87 (95% CI, 0.66 to 1.16: p = 0.34). Compared with standard therapy, however, there was a significantly reduced risk of minor hemorrhage with home monitoring. Pooling data from 14 trials, the relative risk was 0.64 (95% CI, 0.54 to 0.77; p < 0.001). Although this study reported that self-monitoring and self-management resulted in better outcomes without increasing the risk of major hemorrhage, home monitoring was not feasible for up to half of patients requiring anticoagulant therapy due to patient refusal, doctor recommendation or inability to complete training. 

A similar meta-analysis was published in 2011 by Bloomfield et al.2 The newer meta-analysis included a large RCT by Matcher et al. (2010) (described in more detail next), which was not available at the time the Cochrane systematic review was conducted. Study inclusion criteria included RCTs with adult subjects that compared home monitoring with monitoring in a physician’s office or anticoagulation clinic; studies included adults receiving long-term (> 3 months) therapy. The systematic reviews identified 22 trials; 5 on self-monitoring only and 14 that included self-management. Eight studies were limited to patients with MHVs, and the other 14 included patients with various indications. Three studies enrolled inception cohorts (patients who had started oral anticoagulation therapy in the previous 3 months), 8 studies did not enroll inception cohorts and 8 studies were mixed or unclear about this inclusion criterion. (See later section on home self-monitoring from the beginning of treatment.) In a pooled analysis, there were significantly fewer major thromboembolic events in the self-monitoring and self-management group (99/4,004 patients [2.5%]) compared with the standard treatment group (149/3,755 [4.0%]; odds ratio [OR], 0.58; 95% CI, 0.45 to 0.75). Rates of major bleeding events did not differ significantly in the 2 groups. There were 283 of 4,061 (7.0%) events in the home-monitoring group and 300 of 3,806 (7.9%) in the standard treatment group (OR = 0.89; 95% CI, 0.75 to 1.05). Similar to the Cochrane review, the authors noted the low rate of study participation in patients who met preliminary eligibility criteria. The authors did not conduct separate analysis of studies that did and did not enroll inception cohorts.

A 2012 meta-analysis by Heneghan et al. used individual patient data; otherwise, the design was similar to the other published meta-analyses.3 The investigators searched for RCTs comparing self-monitoring or self-management of oral anticoagulation by adults with management by a physician or anticoagulation clinic. This review did not discuss the issue of whether home monitoring occurred in the initial 3 months of anticoagulation therapy. The meta-analysis identified 21 eligible trials, but the authors were not able to obtain adequate data on 10 of the trials. Therefore, they included data on 6,417 participants from the other 11 trials. In a pooled analysis, there was a statistically significant reduction in thromboembolic events in the home PT monitoring group compared with the standard therapy group (hazard ratio (HR), 0.51; 95% CI, 0.31 to 0.85). There was not a significant difference between groups in the rate of major hemorrhagic events (HR = 0.88; 95% CI, 0.74 to 1.06) or death (HR = 0.82; 95% CI, 0.62 to 1.09). 

Representative RCTs enrolling patients initially managed in a physician’s office or anticoagulation clinic are described next.

In 2010, Matchar et al. published findings from a large nonblinded multicenter Veterans Administration-sponsored randomized trial.4,5 The trial, called the Home INR Study (THINRS), included patients who were taking warfarin because of MHVs and/or AF and were expected to be on warfarin indefinitely (operationally defined as 2 years). To be eligible, patients needed to participate in home monitoring training and pass a competency evaluation. A total of 3,643 were trained and 2,922 (80%) were randomly assigned to self-testing with an approved device once a week (n = 1,465) or monthly clinic-based testing (n = 1,457). There were 237 (8%) patients who required caregiver support to perform INR testing. Clinics in the study were required to be “high-quality” testing sites, defined as having a designated staff member for patient evaluation and follow-up, using a standard local protocol and performing INR testing about once a month. Patients in the home monitoring group contacted the clinic with their test results. All participants had quarterly in-person evaluations. About 98% of the patients were men, 92% were white and 92% had received anticoagulation treatment for at least 3 months. There were 1,201 (82%) patients with AF and 351 (24%) with MHVs; 1,113 (76%) had AF without MHV. Loss to follow-up was low and similar in the 2 groups, about 1%. 

The primary efficacy outcome was time to the first major event (stroke, major bleeding episode or death) and used Kaplan-Meier analysis; there were 8,730 patient-years of follow-up. A total of 271 (19%) patients in the self-testing group and 285 (20%) in the clinic-testing group experienced a major event. There was no statistically significant difference in time to first major event between groups (unadjusted HR = 0.88; 95% CI, 0.75 to 1.04). Moreover, there were no significant between-group differences for the individual components of the primary outcome. For example, the rate of death was 152 (10%) in the self-testing group and 157 (11%) in the clinic-testing group (unadjusted HR = 0.91; 95% CI, 0.73 to 1.12). However, the time during which the INR was in the therapeutic range, a secondary outcome, was somewhat higher in the self-testing group than the clinic-testing group (absolute difference, 3.8%; 95% CI, 2.7% to 5.0%); this difference was statistically significant (p < 0.001). The investigators had hypothesized that home testing would be superior to clinic-based testing. They interpreted their finding of no difference between groups in the primary outcomes as an indication that there is no substantial negative effect of self-testing, and they recommended self-testing for patients who have limited access to high-quality anticoagulation clinics. 

In a study published in 2005, Fitzmaurice et al. randomized 617 patients older than age 18 years and receiving warfarin (≈50% for AF) to intervention or routine care.6 Patients receiving intervention used a point-of-care device to measure INR twice a week and a simple dosing chart to interpret their dose of warfarin. No significant differences were found in percentage of time in the therapeutic range between self-management and routine care (70% vs. 68%). Self-managed patients with poor control before the study showed an improvement in control that was not seen in the routine care group. Nine patients (2.8/100 patient-years) had serious adverse events in the self-managed group, compared with 7 patients (2.7/100 patient-years) in the routine care arm. The authors concluded that, with appropriate training, self-management was safe and reliable for a sizeable proportion of patients receiving oral anticoagulation and may improve the time spent in the therapeutic range for patients with initially poor control.

In a European study published in 2005, Menendez-Jandula et al. reported on 737 patients with indications (≈ 50% had AF) for anticoagulant treatment.7 The self-management group (n = 368) received simple instructions for using a portable coagulometer weekly and self-adjusting treatment dose. The conventional management group (n = 369) received usual care in an anticoagulation clinic (monthly measurement and control of INR, managed by hematologists). The median follow-up period was 11.8 months. The unadjusted percentages of in-range INRs were 58.6% in the self-management group and 55.6% in the conventional management group (95% CI for difference, 0.4 to 5.4 percentage points). Twenty-seven patients (7.3%) in the conventional management group and 8 (2.2%) in the self-management group had major complications related to anticoagulant treatment; the unadjusted risk difference for major complications between groups was 5.1 percentage points (95% CI, 1.7 to 8.5 percentage points). This trial was performed at only 1 center and was not blinded. The dropout rate in the intervention group was 21%. 

Section Summary
Home INR monitoring is feasible for some patients on warfarin, but a large proportion are unable or unwilling to perform home monitoring. For patients who are able to self-monitor and who are suitably trained, evidence from multiple RCTs demonstrates that home monitoring is associated with better INR control.

Home Self-Monitoring From the Start of Outpatient Treatment
Initiation of anticoagulation in the outpatient setting is more challenging than maintenance therapy. During the first few months of anticoagulation, INR levels require frequent monitoring and adjustment of Coumadin dose. The risk for adverse events is also higher during this period, particularly for hemorrhagic complications. As a result, the outcome of hemorrhagic complications is more important during this period compared with maintenance therapy.

Fewer RCTs have evaluated home PT monitoring beginning at or near the time they initiate oral anticoagulation therapy than in patients on a stable regimen of anticoagulant therapy. However, there are some published RCTs, which are described next:

Findings from the first 600 patients who completed the 2-year follow-up of the Early Self-Controlled Anticoagulation Trial (ESCAT) from Germany were published in 2001.8 All patients had undergone mechanical heart valve replacement. A total of 295 patients were in the conventional group and 305 were in the INR self-management group. Self-management included training in use of the CoaguChek device 6 to 11 days after surgery and receiving a device after successful training. In the conventionally managed group, 62% of recorded INR values were within the stipulated range (2.5 – 4.5) during the entire observation period compared with 79% of INR values in the self-management group (p < 0.01). Differences in the rate of complications did not differ significantly between groups. Rates of hemorrhagic events were 2.6% in the conventionally managed group and 1.7% in the self-management group, and rates of thromboembolic events were 2.1% and 1.2%, respectively (p > 0.05). 

In 2009, Hamad et al. in the Netherlands published an RCT with 62 patients who had elective mechanical aortic valve replacement.9 Patients were randomly assigned to conventional management or self-management using the CoaguChek device. Self-monitoring training was provided 3 weeks after surgery. After training, patients were supervised by clinic staff, and they had to pass an exam on self-monitoring before using the CoaguChek device at home. A total of 58 of 62 (94%) completed the 1-year follow-up; 29 in each group. The mean number of INR values per patient within the target range (2.5 – 4.5) was significantly higher in the self-management group (72.9% ± 11%) than in the conventionally managed group (53.9% ± 14%) (p = 0.01). In addition, the mean number of days the INR value for each patient was outside the target range was significantly higher in the conventionally managed group (28.6 ± 14) than the self-monitoring group (22.2 ± 10) (p < 0.001). There were no significant differences between groups in postoperative complications or the mortality rate within 1 year of the operation.

In 2012, Thompson et al. at Mayo Clinic published an RCT evaluating in-hospital initiation of INR self-testing after mechanical heart valve replacement.10 Patients were not selected for participation based on motivation for self-testing. A total of 200 patients were randomized to self-testing (n = 100) or usual care (n = 100). Both groups received education on warfarin anticoagulation, including a class, video and an informational booklet. The self-testing group additionally received a structured education program on early postoperative self-testing that included an overview of INR self-testing, proper methods for sampling using a finger stick, use of the coagulometer and recording of the test results. A Food and Drug Administration-cleared device was used. Patients in the self-testing group performed tests once a week, used the telephone to record results and phoned their physician for warfarin dosing instructions. The need for additional testing was at the discretion of the physician. For patients in the usual care group, frequency of testing and dose alteration was at the discretion of the primary physician. 

During the 3-month study period, 14 patients (14%) withdrew from the self-testing group and 7 (7%) withdrew from the usual care group. Over the entire 3-month study period, the mean percentage of time patients spent in the INR therapeutic range was 53% (SD = 27%) in the self-testing group and 48% (SD = 25%) in the usual care group. The difference between groups was not statistically significant. However, when only data from the third month were examined, i.e., the month in which patients were most experienced at self-testing, the self-testing group had a significantly greater percentage of time in the therapeutic range, 59% (SD = 32%) versus 40% (SD = 38%) (p = 0.01). During the study period, a total of 9 patients (9%) in the self-testing group and 7 patients (7%) in the usual care group experienced an adverse event. In the self-testing group, adverse events included transient ischemic attack (TIA) (n = 2), hemothorax (n = 2), evacuation of subdural hematoma (n = 1), bloody pericardial effusion (n = 2), pulmonary embolism (n = 1) and bleeding scalp (n = 1). Adverse events in the usual care group included TIA (n = 1), possible TIA (n = 1), temporary visual change (n = 2), bloody pericardial effusion (n = 1), bleeding after shaving (n = 1) and nose bleed (n = 1). The study was powered to detect clinically significant differences in time within the therapeutic range, not to detect differences in adverse events. 

Section Summary
There are fewer RCTs evaluating home monitoring in the initial treatment period compared with home monitoring that begins after several months of in-clinic management. Several European RCTs, which included substantial patient training and/or supervision, found that time in the therapeutic range improved with self-monitoring. A recent U.S. trial from Mayo Clinic found that time in the therapeutic range over the 3-month study period did not differ significantly in a self-monitoring versus usual care group. However, time in the therapeutic range was significantly higher in the self-monitoring group during the third study month, at which time patients had gained experience. The evidence supports that time in therapeutic INR can be improved with home monitoring, when patients are competent in the monitoring procedures, but the evidence on adverse events is not sufficient. In particular, the available studies have low numbers of hemorrhagic complications and may be underpowered to detect clinically important differences in that outcome.

Summary of Evidence
Data from multiple randomized controlled trials (RCTs) consistently demonstrate that the use of self-monitoring in patients who are initially managed in a clinical setting results in an increased time in the therapeutic range. Based on prior research, it is likely that time in therapeutic international normalized ratio (INR) is associated with improved health outcomes. Some studies also report a lower rate of hemorrhagic or embolic events, but this evidence is limited by high dropout and noncompliance rates that may have created imbalances between treatment groups. The evidence includes monitoring in several chronic conditions such as mechanical heart valves, chronic atrial fibrillation and deep venous thrombosis and, therefore, comparable results should be able to be obtained in other similar, but less prevalent, conditions that require continuous anticoagulation. Thus, based on the evidence and clinical context, home prothrombin time monitoring may be considered medically necessary for patients with chronic conditions that require continuous oral anticoagulation with warfarin who are able to self-monitor and who have undergone initial clinic-based anticoagulation management for at least 3 months.

The evidence is insufficient to conclude that the use of initial self-monitoring improves the net health outcome. RCTs with sufficient large samples that report health outcomes are needed to more thoroughly evaluate the safety and efficacy of home prothrombin time monitoring from the start of treatment. Therefore, the use of home monitoring during the initial treatment period is considered investigational.

Practice Guidelines and Position Statements
In 2012, the American College of Chest Physicians published evidence-based guidelines on management of anticoagulant therapy.11 The guidelines include the following recommendations on home prothrombin time testing: 

“For patients treated with VKAs [vitamin K antagonists] who are motivated and can demonstrate competency in self-management strategies, including the self-testing equipment, we suggest patient self-management rather than usual outpatient INR monitoring (Grade 2B). For all other patients, we suggest monitoring that includes the safeguards in our best practice statement 3.5.”

These safeguards include managing treatment in a systematic and coordinated fashion, educating patients and communicating effectively with patients about test results and dosing decisions. 

References:

  1. Garcia-Alamino JM, Ward AM, Alonso-Coello P, et al. Self-monitoring and self-management of oral anticoagulation. Cochrane Database of Systematic Reviews. 2010(4):CD003839.
  2. Bloomfield HE, Krause A, Greer N, et al. Meta-analysis: Effect of patient self-testing and self-management of long-term anticoagulation on major clinical outcomes. Ann Intern Med. 2011;154(7):472-482.
  3. Heneghan C, Ward A, Perera R, et al. Self-monitoring of oral anticoagulation: systematic review and metaanalysis of individual patient data. Lancet. 2012;379(813):322-334.
  4. Matchar DB, Jacobson A, Dolor R, et al. Effect of home testing of international normalized ratio on clinical events. N Engl J Med. 2010;363(17):1608-1620.
  5. Matchar DB, Jacobson AK, Edson RG, et al. The impact of patient self-testing of prothrombin time for managing anticoagulation: rationale and design of VA cooperative study #481- the Home INR study (THINRS). J Thromb Thrombolysis. 2005;19(3):163-172.
  6. Fitzmaurice DA, Murray ET, McCahon D, et al. Self management of oral anticoagulation: randomized trial. Bmj. 2005;331(7524):1057.
  7. Menendez-Jandula B, Souto JC, Oliver A, et al. Comparing self-management of oral anticoagulant therapy with clinic management: a randomized trial. Ann Intern Med. 2005;142(1):1-10.
  8. Kortke H, Korfer R. International normalized ratio self-management after mechanical heart valve replacement: is an early start advantageous? Ann Thorac Surg. Jul 2001;72(1):44-48. PMID 11465228
  9. Hamad MA, van EE, van AT, et al. Self-management program improves anticoagulation control and quality of life: a prospective randomized study. Eur J Cardiothorac Surg. 2009;35(2):265-269. PMID
  10. Thompson JL, Burkhart HM, Daly RC, et al. Anticoagulation early after mechanical valve replacement: improved management with patient self-testing. J Thorac Cardiovasc Surg. Sep 2013;146(3):599-604. PMID 22921821
  11. Holbrook A, Schulman S, Witt DM, et al. Evidence-based management of anticoagulant therapy: Antithrombotic Therapy and Prevention of Thrombosis, 9th ed: American College of Chest Physicians Evidence-Based Clinical Practice Guidelines. Chest. Feb 2012;141(2 Suppl):e152S-184S. PMID 22315259
  12. Centers for Medicare & Medicare Services (CMS). Decision Memo for Prothrombin Time (INR) Monitor for Home Anticoagulation Management (CAG-00087R) www.cms.gov.

Coding Section

Codes

Number

Description

CPT  99363 

Anticoagulant management for an outpatient taking warfarin, physician review and interpretation of International Normalized Ratio (INR) testing, patient instructions, dosage adjustment (as needed), and ordering of additional tests; initial 90 days of therapy (must include a minimum of 8 INR measurements) 

  99364

each subsequent 90 days of therapy (must include a minimum of 3 INR measurements) 

  93792 (effective 1/1/2018) 

Patient/caregiver training for initiation of home international normalized ratio (INR) monitoring under the direction of a physician or other qualified health care professional, face-to-face, including use and care of the INR monitor, obtaining blood sample, instructions for reporting home INR test results, and documentation of patient’s/caregiver’s ability to perform testing and report results. 

   

For provision of test material and equipment for home INR monitoring, see 99070 or the appropriate supply code. 

  93793 (effective 1/1/2018) 

Anticoagulant management for a patient taking warfarin, must include review and interpretation of a new home, office, or lab international normalized ratio (INR) test result, patient instructions, dosage adjustment (as needed), and scheduling of additional test(s), when performed. 

   

Do not report 93793 in conjunction with 99201, 99202, 99203, 99204, 99205, 99211, 99212, 99213, 99214, 99215, 99241, 99242, 99243, 99244, 99245. 

   

Report 93793 no more than once per day, regardless of the number of tests reviewed. 

ICD-9 Procedure  No Code   
ICD-9 Diagnosis  427.31  Atrial fibrillation 
  453.40-453.42  Venous embolism and thrombosis of deep vessels of lower extremity; code range 
  V58.61  Long-term (current) use of anticoagulants 
HCPCS  G0248 

Demonstration, prior to initiation of home INR monitoring, for patient with either mechanical heart valve(s), chronic atrial fibrillation, or venous thromboembolism who meets Medicare coverage criteria, under the direction of a physician; includes: face-to-face demonstration of use and care of the INR monitor, obtaining at least one blood sample, provision of instructions for reporting home INR test results, and documentation of patient’s ability to perform testing and report results 

  G0249 

Provision of test materials and equipment for home INR monitoring of patient with either mechanical heart valve(s), chronic atrial fibrillation, or venous thromboembolism who meets Medicare coverage criteria; includes: provision of materials for use in the home and reporting of test results to physician; testing not occurring more frequently than once a week; testing materials, billing units of service include 4 tests 

  G0250 

Physician review, interpretation and patient management of home INR testing for patient with either mechanical heart valve(s), chronic atrial fibrillation, or venous thromboembolism who meets Medicare coverage criteria; testing not occurring more frequently than once a week; billing units of service include 4 tests 

ICD-10-CM (effective 10/01/14)  148.0  Atrial fibrillation 
  182.40  Acute embolism and thrombosis of unspecified deep vein lower extremity 
  182.499  Acute embolism and thrombosis of other deep vein of unspecified lower extremity 
  Z95.2  Presence of prosthetic heart valve 
ICD-10-PCS (effective 10/01/14)    Not applicable. ICD-10-PCS codes are used only for inpatient services. 
Type of Service  Hematology 
Place of Service  Home 

This medical policy was developed through consideration of peer-reviewed medical literature generally recognized by the relevant medical community, U.S. FDA approval status, nationally accepted standards of medical practice and accepted standards of medical practice in this community, Blue Cross Blue Shield Association technology assessment program (TEC) and other nonaffiliated technology evaluation centers, reference to federal regulations, other plan medical policies, and accredited national guidelines.

"Current Procedural Terminology © American Medical Association. All Rights Reserved" 

History From 2024 Forward     

09/16/2024 Annual review, no change to policy intent. 
01/01/2024 New Policy
Complementary Content
${loading}