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10 (Safe) Ways to Reduce Patients’ Insulin Costs
Almost a century after its discovery, insulin remains a life-saving yet costly medication: In the past 15 years, prices have risen more than 500%.1 Patients may ask you why the insulin you prescribe is so expensive, and the complex process for determining drug costs makes it difficult to answer. But the bottom line is, patients need their insulin—and they want it without breaking the bank.
Thankfully, there are several strategies for reducing the cost of insulin. First and foremost, patients must be advised that not taking their prescribed insulin, or taking less insulin than prescribed, is not a safe alternative. An individualized cost-benefit analysis between patient and provider can help to determine the best option for each patient. After working in endocrinology for 5 years, I have learned the following 10 ways to help patients whose financial situations limit their access to insulin.
1 Try older insulins, including mixed insulin 70/30 or 50/50, insulin NPH, or regular insulin. Because the beneficial effects may not be as long lasting with these as with newer insulins on the market, your patient may need to test glucose levels more frequently. Also, insulin NPH and any mixed insulins are suspensions, not solutions, so patients will need to gently roll older insulins prior to use. Those in pen form may also have a shorter shelf life.
2 Switch to a syringe and vial. Although dosing can be less precise, this could be a viable option for patients with good vision and dexterity. This method helps patients save in 3 ways: (1) the insulin is less expensive; (2) syringes generally cost less (about $30 for 100) than pen needle tips (about $50 for 100); and (3) vials of NPH are longer-lasting suspensions that are stable for about 28 days once opened, compared to 14 days for pens.2-4
3 Switch from a 30- to a 90-day supply of refills. This helps to lower copays. For example, a mail-order program (eg, Express Scripts) that ships from a warehouse typically offers lower pricing than a brick-and-mortar pharmacy with greater overhead. Many of these programs provide 2-pharmacist verification for accuracy and free home delivery of medications at a 10% discount, as well as 24-hour pharmacist access.5 The ease of obtaining prescriptions by this method also can help with medication adherence.
4 Patient assistance programs (PAPs) offered by insulin manufacturers can help lower costs for patients who find it difficult to afford their medication. Information on these programs is available on the respective company’s websites, usually in multiple languages (although some are limited to English and Spanish). Patients applying for a PAP must provide a proof of income and adhere to the program’s specific criteria. Renewal is typically required each year.6-8
5 Copay cards are available to many patients with private insurance and may help make insulin more affordable. Patients may be able to receive a $25 monthly supply of insulin for up to 1 year (specific terms vary). Maximum contributions and contributions toward deductibles also vary by program, so patients need to familiarize themselves with what their particular copay card allows. Generally, copay cards are not a sustainable long-term solution; for one thing, they expire, and for another, emphasis should be placed on affordable medications rather than affording expensive medications.
[polldaddy:10400221]
Continue to: 6 External PAPs for patients on Medicare...
6 External PAPs for patients on Medicare can help lower the costs of prescription medications.9 A database of pharmaceutical PAPs is available on the Medicare website.10 Some PAPs may help patients on Medicare pay through the $5,100 coverage gap or “donut hole”—a term referring to a gap in prescription drug coverage once patients have met their prescription limit (all Medicare part D plans have a donut hole).11,12 Patients and providers will need to read the fine print when applying for an external PAP, because some have a monthly or one-time start-up fee for processing the paperwork (and note, there is often paperwork for the relief program in addition to the PAP paperwork through the pharmaceutical company).
7 A Program of All-Inclusive Care for the Elderly (PACE) is available in many states; check medicare.gov to see if your state is eligible. For patients 55 and older on Medicare or Medicaid who do not opt for care at a nursing home facility, PACE may be able to provide care and coverage in the patient’s home or at a PACE facility. Services include primary care, hospital care, laboratory and x-ray services, medical specialty services, and prescription drugs. To be eligible for PACE services, the patient must live in the service area of a PACE organization and have a requirement for a nursing home-level of care (as certified by your state).
8 Shop around for the best deal. Encourage your patients to comparison shop for the best prices rather than accepting the first or only option at their usual pharmacy. Different pharmacies offer drugs at lower prices than competitors. Also, continually compare prices at GoodRx or HealthWarehouse.com. The latter—a fully licensed Internet-based pharmacy—sells FDA-approved medications at affordable prices in all 50 states, without the requirement for insurance coverage.
9 Use of a patch pump may be less expensive for patients with type 2 diabetes who are taking basal-bolus regimens. Patches slowly deliver single short-acting insulin (usually insulin aspart or lispro) that acts as a basal insulin, with an additional reservoir for prandial insulin at mealtime and for snacks. As there is a catheter in the patch, patients would not require the use of needles.13
10 Try removing mealtime insulin for patients with type 2 diabetes who need minimal mealtime insulin. Clinicians can initiate a safe trial of this removal by encouraging the patient to consume a low-carbohydrate diet, increase exercise, and/or use other noninsulin medications that are more affordable.
Continue to: The affordability of insulins...
The affordability of insulins is a potentially uncomfortable but necessary conversation to have with your patient. Providers are one of the best resources for patients who seek relief from financial difficulties. The recommendations discussed here can help providers and patients design a cost-conscious plan for insulin treatment. Although each recommendation is viable, the pros and cons must be weighed on a case-by-case basis. Providers and patients should also pay attention to the Senate Finance Committee’s ongoing discussions and possible resolutions that could result in lower insulin costs. Until legislation that lowers the prices of insulin comes to fruition, however, providers should continue to plan with their patients on how to best get their insulin at the lowest cost.
Test yourself with the poll here.
1. Grassley, Wyden launch bipartisan investigation into insulin prices. United States Senate Committee on Finance website. www.finance.senate.gov/chairmans-news/grassley-wyden-launch-bipartisan-investigation-into-insulin-prices. Published February 22, 2019. Accessed August 16, 2019.
2. BD Ultra-Fine. Syringe. GoodRx website. www.goodrx.com/bd-ultra-fine?dosage=31-gauge-5-16%22-of-1-cc&form=syringe&label_override=BD+Ultra-Fine&quantity=100. Accessed August 16, 2019.
3. BD Ultra-Fine. Pen needle. GoodRx website. www.goodrx.com/bd-ultra-fine?dosage=5-32%22-of-32-gauge&form=pen-needle&label_override=BD+Ultra-Fine&quantity=100. Accessed August 16, 2019.
4. Joffee D. Stability of common insulins in pens and vials. Diabetes in Control website. www.diabetesincontrol.com/wp-content/uploads/PDF/se_insulin_stability_chart.pdf. Published September 2011. Accessed August 16, 2019.
5. Frequently asked questions. Preferred home delivery program for maintenance medications. Express Scripts website. www.express-scripts.com/art/pdf/SST-custom-preferred-faq.pdf. Accessed August 16, 2019.
6. Patient Connection. Sanofi Patient Connection website. www.sanofipatientconnection.com/. Accessed August 16, 2019.
7. The Lilly Cares Foundation Patient Assistance Program. Lilly website. www.lillycares.com/assistanceprograms.aspx. Accessed August 16, 2019.
8. Novo Nordisk Patient Assistance Program. NovoCare website. www.novocare.com/psp/PAP.html. Accessed August 16, 2019.
9. 6 ways to get help with prescription costs. Medicare website. www.medicare.gov/drug-coverage-part-d/costs-for-medicare-drug-coverage/costs-in-the-coverage-gap/6-ways-to-get-help-with-prescription-costs. Accessed August 16, 2019.
10. Pharmaceutical assistance program. Medicare website. www.medicare.gov/pharmaceutical-assistance-program/Index.aspx. Accessed August 16, 2019.
11. Catastrophic coverage. Medicare website. www.medicare.gov/drug-coverage-part-d/costs-for-medicare-drug-coverage/catastrophic-coverage. Accessed August 16, 2019.
12. Costs in the coverage gap. Medicare website. www.medicare.gov/drug-coverage-part-d/costs-for-medicare-drug-coverage/costs-in-the-coverage-gap. Accessed August 16, 2019.
13. V-Go Reimbursement Assistance Program. V-Go website. www.go-vgo.com/coverage-savings/overview/. Accessed August 16, 2019.
Almost a century after its discovery, insulin remains a life-saving yet costly medication: In the past 15 years, prices have risen more than 500%.1 Patients may ask you why the insulin you prescribe is so expensive, and the complex process for determining drug costs makes it difficult to answer. But the bottom line is, patients need their insulin—and they want it without breaking the bank.
Thankfully, there are several strategies for reducing the cost of insulin. First and foremost, patients must be advised that not taking their prescribed insulin, or taking less insulin than prescribed, is not a safe alternative. An individualized cost-benefit analysis between patient and provider can help to determine the best option for each patient. After working in endocrinology for 5 years, I have learned the following 10 ways to help patients whose financial situations limit their access to insulin.
1 Try older insulins, including mixed insulin 70/30 or 50/50, insulin NPH, or regular insulin. Because the beneficial effects may not be as long lasting with these as with newer insulins on the market, your patient may need to test glucose levels more frequently. Also, insulin NPH and any mixed insulins are suspensions, not solutions, so patients will need to gently roll older insulins prior to use. Those in pen form may also have a shorter shelf life.
2 Switch to a syringe and vial. Although dosing can be less precise, this could be a viable option for patients with good vision and dexterity. This method helps patients save in 3 ways: (1) the insulin is less expensive; (2) syringes generally cost less (about $30 for 100) than pen needle tips (about $50 for 100); and (3) vials of NPH are longer-lasting suspensions that are stable for about 28 days once opened, compared to 14 days for pens.2-4
3 Switch from a 30- to a 90-day supply of refills. This helps to lower copays. For example, a mail-order program (eg, Express Scripts) that ships from a warehouse typically offers lower pricing than a brick-and-mortar pharmacy with greater overhead. Many of these programs provide 2-pharmacist verification for accuracy and free home delivery of medications at a 10% discount, as well as 24-hour pharmacist access.5 The ease of obtaining prescriptions by this method also can help with medication adherence.
4 Patient assistance programs (PAPs) offered by insulin manufacturers can help lower costs for patients who find it difficult to afford their medication. Information on these programs is available on the respective company’s websites, usually in multiple languages (although some are limited to English and Spanish). Patients applying for a PAP must provide a proof of income and adhere to the program’s specific criteria. Renewal is typically required each year.6-8
5 Copay cards are available to many patients with private insurance and may help make insulin more affordable. Patients may be able to receive a $25 monthly supply of insulin for up to 1 year (specific terms vary). Maximum contributions and contributions toward deductibles also vary by program, so patients need to familiarize themselves with what their particular copay card allows. Generally, copay cards are not a sustainable long-term solution; for one thing, they expire, and for another, emphasis should be placed on affordable medications rather than affording expensive medications.
[polldaddy:10400221]
Continue to: 6 External PAPs for patients on Medicare...
6 External PAPs for patients on Medicare can help lower the costs of prescription medications.9 A database of pharmaceutical PAPs is available on the Medicare website.10 Some PAPs may help patients on Medicare pay through the $5,100 coverage gap or “donut hole”—a term referring to a gap in prescription drug coverage once patients have met their prescription limit (all Medicare part D plans have a donut hole).11,12 Patients and providers will need to read the fine print when applying for an external PAP, because some have a monthly or one-time start-up fee for processing the paperwork (and note, there is often paperwork for the relief program in addition to the PAP paperwork through the pharmaceutical company).
7 A Program of All-Inclusive Care for the Elderly (PACE) is available in many states; check medicare.gov to see if your state is eligible. For patients 55 and older on Medicare or Medicaid who do not opt for care at a nursing home facility, PACE may be able to provide care and coverage in the patient’s home or at a PACE facility. Services include primary care, hospital care, laboratory and x-ray services, medical specialty services, and prescription drugs. To be eligible for PACE services, the patient must live in the service area of a PACE organization and have a requirement for a nursing home-level of care (as certified by your state).
8 Shop around for the best deal. Encourage your patients to comparison shop for the best prices rather than accepting the first or only option at their usual pharmacy. Different pharmacies offer drugs at lower prices than competitors. Also, continually compare prices at GoodRx or HealthWarehouse.com. The latter—a fully licensed Internet-based pharmacy—sells FDA-approved medications at affordable prices in all 50 states, without the requirement for insurance coverage.
9 Use of a patch pump may be less expensive for patients with type 2 diabetes who are taking basal-bolus regimens. Patches slowly deliver single short-acting insulin (usually insulin aspart or lispro) that acts as a basal insulin, with an additional reservoir for prandial insulin at mealtime and for snacks. As there is a catheter in the patch, patients would not require the use of needles.13
10 Try removing mealtime insulin for patients with type 2 diabetes who need minimal mealtime insulin. Clinicians can initiate a safe trial of this removal by encouraging the patient to consume a low-carbohydrate diet, increase exercise, and/or use other noninsulin medications that are more affordable.
Continue to: The affordability of insulins...
The affordability of insulins is a potentially uncomfortable but necessary conversation to have with your patient. Providers are one of the best resources for patients who seek relief from financial difficulties. The recommendations discussed here can help providers and patients design a cost-conscious plan for insulin treatment. Although each recommendation is viable, the pros and cons must be weighed on a case-by-case basis. Providers and patients should also pay attention to the Senate Finance Committee’s ongoing discussions and possible resolutions that could result in lower insulin costs. Until legislation that lowers the prices of insulin comes to fruition, however, providers should continue to plan with their patients on how to best get their insulin at the lowest cost.
Test yourself with the poll here.
Almost a century after its discovery, insulin remains a life-saving yet costly medication: In the past 15 years, prices have risen more than 500%.1 Patients may ask you why the insulin you prescribe is so expensive, and the complex process for determining drug costs makes it difficult to answer. But the bottom line is, patients need their insulin—and they want it without breaking the bank.
Thankfully, there are several strategies for reducing the cost of insulin. First and foremost, patients must be advised that not taking their prescribed insulin, or taking less insulin than prescribed, is not a safe alternative. An individualized cost-benefit analysis between patient and provider can help to determine the best option for each patient. After working in endocrinology for 5 years, I have learned the following 10 ways to help patients whose financial situations limit their access to insulin.
1 Try older insulins, including mixed insulin 70/30 or 50/50, insulin NPH, or regular insulin. Because the beneficial effects may not be as long lasting with these as with newer insulins on the market, your patient may need to test glucose levels more frequently. Also, insulin NPH and any mixed insulins are suspensions, not solutions, so patients will need to gently roll older insulins prior to use. Those in pen form may also have a shorter shelf life.
2 Switch to a syringe and vial. Although dosing can be less precise, this could be a viable option for patients with good vision and dexterity. This method helps patients save in 3 ways: (1) the insulin is less expensive; (2) syringes generally cost less (about $30 for 100) than pen needle tips (about $50 for 100); and (3) vials of NPH are longer-lasting suspensions that are stable for about 28 days once opened, compared to 14 days for pens.2-4
3 Switch from a 30- to a 90-day supply of refills. This helps to lower copays. For example, a mail-order program (eg, Express Scripts) that ships from a warehouse typically offers lower pricing than a brick-and-mortar pharmacy with greater overhead. Many of these programs provide 2-pharmacist verification for accuracy and free home delivery of medications at a 10% discount, as well as 24-hour pharmacist access.5 The ease of obtaining prescriptions by this method also can help with medication adherence.
4 Patient assistance programs (PAPs) offered by insulin manufacturers can help lower costs for patients who find it difficult to afford their medication. Information on these programs is available on the respective company’s websites, usually in multiple languages (although some are limited to English and Spanish). Patients applying for a PAP must provide a proof of income and adhere to the program’s specific criteria. Renewal is typically required each year.6-8
5 Copay cards are available to many patients with private insurance and may help make insulin more affordable. Patients may be able to receive a $25 monthly supply of insulin for up to 1 year (specific terms vary). Maximum contributions and contributions toward deductibles also vary by program, so patients need to familiarize themselves with what their particular copay card allows. Generally, copay cards are not a sustainable long-term solution; for one thing, they expire, and for another, emphasis should be placed on affordable medications rather than affording expensive medications.
[polldaddy:10400221]
Continue to: 6 External PAPs for patients on Medicare...
6 External PAPs for patients on Medicare can help lower the costs of prescription medications.9 A database of pharmaceutical PAPs is available on the Medicare website.10 Some PAPs may help patients on Medicare pay through the $5,100 coverage gap or “donut hole”—a term referring to a gap in prescription drug coverage once patients have met their prescription limit (all Medicare part D plans have a donut hole).11,12 Patients and providers will need to read the fine print when applying for an external PAP, because some have a monthly or one-time start-up fee for processing the paperwork (and note, there is often paperwork for the relief program in addition to the PAP paperwork through the pharmaceutical company).
7 A Program of All-Inclusive Care for the Elderly (PACE) is available in many states; check medicare.gov to see if your state is eligible. For patients 55 and older on Medicare or Medicaid who do not opt for care at a nursing home facility, PACE may be able to provide care and coverage in the patient’s home or at a PACE facility. Services include primary care, hospital care, laboratory and x-ray services, medical specialty services, and prescription drugs. To be eligible for PACE services, the patient must live in the service area of a PACE organization and have a requirement for a nursing home-level of care (as certified by your state).
8 Shop around for the best deal. Encourage your patients to comparison shop for the best prices rather than accepting the first or only option at their usual pharmacy. Different pharmacies offer drugs at lower prices than competitors. Also, continually compare prices at GoodRx or HealthWarehouse.com. The latter—a fully licensed Internet-based pharmacy—sells FDA-approved medications at affordable prices in all 50 states, without the requirement for insurance coverage.
9 Use of a patch pump may be less expensive for patients with type 2 diabetes who are taking basal-bolus regimens. Patches slowly deliver single short-acting insulin (usually insulin aspart or lispro) that acts as a basal insulin, with an additional reservoir for prandial insulin at mealtime and for snacks. As there is a catheter in the patch, patients would not require the use of needles.13
10 Try removing mealtime insulin for patients with type 2 diabetes who need minimal mealtime insulin. Clinicians can initiate a safe trial of this removal by encouraging the patient to consume a low-carbohydrate diet, increase exercise, and/or use other noninsulin medications that are more affordable.
Continue to: The affordability of insulins...
The affordability of insulins is a potentially uncomfortable but necessary conversation to have with your patient. Providers are one of the best resources for patients who seek relief from financial difficulties. The recommendations discussed here can help providers and patients design a cost-conscious plan for insulin treatment. Although each recommendation is viable, the pros and cons must be weighed on a case-by-case basis. Providers and patients should also pay attention to the Senate Finance Committee’s ongoing discussions and possible resolutions that could result in lower insulin costs. Until legislation that lowers the prices of insulin comes to fruition, however, providers should continue to plan with their patients on how to best get their insulin at the lowest cost.
Test yourself with the poll here.
1. Grassley, Wyden launch bipartisan investigation into insulin prices. United States Senate Committee on Finance website. www.finance.senate.gov/chairmans-news/grassley-wyden-launch-bipartisan-investigation-into-insulin-prices. Published February 22, 2019. Accessed August 16, 2019.
2. BD Ultra-Fine. Syringe. GoodRx website. www.goodrx.com/bd-ultra-fine?dosage=31-gauge-5-16%22-of-1-cc&form=syringe&label_override=BD+Ultra-Fine&quantity=100. Accessed August 16, 2019.
3. BD Ultra-Fine. Pen needle. GoodRx website. www.goodrx.com/bd-ultra-fine?dosage=5-32%22-of-32-gauge&form=pen-needle&label_override=BD+Ultra-Fine&quantity=100. Accessed August 16, 2019.
4. Joffee D. Stability of common insulins in pens and vials. Diabetes in Control website. www.diabetesincontrol.com/wp-content/uploads/PDF/se_insulin_stability_chart.pdf. Published September 2011. Accessed August 16, 2019.
5. Frequently asked questions. Preferred home delivery program for maintenance medications. Express Scripts website. www.express-scripts.com/art/pdf/SST-custom-preferred-faq.pdf. Accessed August 16, 2019.
6. Patient Connection. Sanofi Patient Connection website. www.sanofipatientconnection.com/. Accessed August 16, 2019.
7. The Lilly Cares Foundation Patient Assistance Program. Lilly website. www.lillycares.com/assistanceprograms.aspx. Accessed August 16, 2019.
8. Novo Nordisk Patient Assistance Program. NovoCare website. www.novocare.com/psp/PAP.html. Accessed August 16, 2019.
9. 6 ways to get help with prescription costs. Medicare website. www.medicare.gov/drug-coverage-part-d/costs-for-medicare-drug-coverage/costs-in-the-coverage-gap/6-ways-to-get-help-with-prescription-costs. Accessed August 16, 2019.
10. Pharmaceutical assistance program. Medicare website. www.medicare.gov/pharmaceutical-assistance-program/Index.aspx. Accessed August 16, 2019.
11. Catastrophic coverage. Medicare website. www.medicare.gov/drug-coverage-part-d/costs-for-medicare-drug-coverage/catastrophic-coverage. Accessed August 16, 2019.
12. Costs in the coverage gap. Medicare website. www.medicare.gov/drug-coverage-part-d/costs-for-medicare-drug-coverage/costs-in-the-coverage-gap. Accessed August 16, 2019.
13. V-Go Reimbursement Assistance Program. V-Go website. www.go-vgo.com/coverage-savings/overview/. Accessed August 16, 2019.
1. Grassley, Wyden launch bipartisan investigation into insulin prices. United States Senate Committee on Finance website. www.finance.senate.gov/chairmans-news/grassley-wyden-launch-bipartisan-investigation-into-insulin-prices. Published February 22, 2019. Accessed August 16, 2019.
2. BD Ultra-Fine. Syringe. GoodRx website. www.goodrx.com/bd-ultra-fine?dosage=31-gauge-5-16%22-of-1-cc&form=syringe&label_override=BD+Ultra-Fine&quantity=100. Accessed August 16, 2019.
3. BD Ultra-Fine. Pen needle. GoodRx website. www.goodrx.com/bd-ultra-fine?dosage=5-32%22-of-32-gauge&form=pen-needle&label_override=BD+Ultra-Fine&quantity=100. Accessed August 16, 2019.
4. Joffee D. Stability of common insulins in pens and vials. Diabetes in Control website. www.diabetesincontrol.com/wp-content/uploads/PDF/se_insulin_stability_chart.pdf. Published September 2011. Accessed August 16, 2019.
5. Frequently asked questions. Preferred home delivery program for maintenance medications. Express Scripts website. www.express-scripts.com/art/pdf/SST-custom-preferred-faq.pdf. Accessed August 16, 2019.
6. Patient Connection. Sanofi Patient Connection website. www.sanofipatientconnection.com/. Accessed August 16, 2019.
7. The Lilly Cares Foundation Patient Assistance Program. Lilly website. www.lillycares.com/assistanceprograms.aspx. Accessed August 16, 2019.
8. Novo Nordisk Patient Assistance Program. NovoCare website. www.novocare.com/psp/PAP.html. Accessed August 16, 2019.
9. 6 ways to get help with prescription costs. Medicare website. www.medicare.gov/drug-coverage-part-d/costs-for-medicare-drug-coverage/costs-in-the-coverage-gap/6-ways-to-get-help-with-prescription-costs. Accessed August 16, 2019.
10. Pharmaceutical assistance program. Medicare website. www.medicare.gov/pharmaceutical-assistance-program/Index.aspx. Accessed August 16, 2019.
11. Catastrophic coverage. Medicare website. www.medicare.gov/drug-coverage-part-d/costs-for-medicare-drug-coverage/catastrophic-coverage. Accessed August 16, 2019.
12. Costs in the coverage gap. Medicare website. www.medicare.gov/drug-coverage-part-d/costs-for-medicare-drug-coverage/costs-in-the-coverage-gap. Accessed August 16, 2019.
13. V-Go Reimbursement Assistance Program. V-Go website. www.go-vgo.com/coverage-savings/overview/. Accessed August 16, 2019.
Insulin Pump Therapy: Who, Why, and How
With new technology available to aid patients, diabetes management in the 21st century is moving beyond metformin. Among these advances are insulin pumps, which are not just for the young and tech-savvy. In fact, in 2016, the American Diabetes Association (ADA) revised their Standards in Medical Care to recommend patients 65 and older continue to use their insulin pumps and continuous glucose monitoring devices (CGMs), rather than forego technology for more traditional treatment options.1
Insulin pumps enhance or mimic the role of the pancreas by providing a background, or basal, rate of insulin, as well as boluses for food or glucose corrections. A small catheter is inserted under the skin—in the same areas used for injections (eg, arm, thigh, abdomen)—to release insulin.2
While the benefits of technology cannot always be quantified, there are data to suggest insulin pumps can reduce A1C by 1.1% in patients with type 2 diabetes. In tandem with CGMs, insulin pumps have been shown to be cost effective in those with a history of severe hypoglycemia.3,4
Q When should patients consider using an insulin pump?
Patients with type 1 or type 2 diabetes can benefit from an insulin pump. In particular, they can be useful for patients who
Are tired of multiple daily injections. Insulin is still bolused at mealtime—just electronically.
Require a tailored approach. Multiple basal settings can be programmed to reflect activity and work level; some patients need more insulin on active days and less on sedentary days.
Have an on-the-go lifestyle. Insulin pumps replace multiple daily injections, as noted, which helps when patients miss manual injections due to accessibility issues.
Value discretion. Those who wear restrictive uniforms for work or simply desire privacy may benefit from an insulin pump model that can bolus via remote control, without physical access to the pump.
Have found other treatments suboptimal. Some insurers allow patients to try a pump before a decision is made.
Experience hypoglycemia unawareness. Some pumps work with CGMs to suspend insulin delivery with a low glucose level; proper use of a pump can help to restore patient awareness of their condition.
Are sensitive to insulin. Select pumps can deliver insulin at a rate of one-hundredth of a unit at a time.
Experience the dawn phenomenon or Somogyi effect. Patients with high early-morning glucose levels can adjust their rates to combat hyperglycemia, and those with overnight lows and rebounding hyperglycemia can adjust their basal rates or nighttime snacking settings to prevent this occurrence.
Q Who would be an ideal candidate?
Motivated patients who want to attain glycemic control and adhere to the recommendations of their care team are ideally suited to insulin pump use. Insurance companies want to ensure patient safety, so before approving coverage for an insulin pump, they may require patients to demonstrate their willingness to adjust their lifestyle, work with their diabetes educator and/or provider team, and test routinely in the weeks or months leading up to the final decision—all expected behavior while using pump therapy.
Q How do you initiate insulin pump therapy?
With any new treatment, clear communication is key. Patients should schedule specific appointments with their provider and diabetes team to know what is expected from both parties during this process.
Pump selection should be individualized choice, depending on the patient’s goals, lifestyle, and a thorough review of the pros and cons of each pump. When a selection has been made, patients can begin testing—at least four times daily, before meals and at bedtime, as required by most insurers. Representatives from the pump’s manufacturer can be a helpful resource for questions about the particular pump, as well as a liaison to the insurance company if clarifications are needed.
Each practice is different, but once insurance coverage is determined, the patient may be asked to review his/her food log with the team. Those who count carbohydrates may be assessed for their ability to accurately measure and record this information, since it improves the accuracy of insulin boluses and effectiveness of treatment. Patients who do not count carbs should be advised of alternative options, such as capping meals at a certain carbohydrate amount (eg, 60 to 75 g, based on labels) or carbohydrate exchanges (eg, if a typical serving size is 15 g, patients may have 3 servings per meal).
The comfort level of the practice and the care team, as well as the patient, may influence how pump therapy is initiated. Some care teams may decide to do a trial run with saline for safety, to ensure the patient is using the pump properly before advancing to insulin.
Q What are some features to consider when selecting a pump?
The practical reality is that individual practices and providers are unlikely to offer every possible insulin pump; a practice may not have the software needed to download data from every type of pump. Patients must be comfortable with their choice of pump—but so must providers. A clinician may be more familiar and/or comfortable with a particular pump (or pumps), based in part on his/her relationship with the manufacturer. If the provider feels sufficiently educated, he or she is better equipped to advise the patient on usage.
Some of the insulin pumps available in the United States are described in the table.5-11 Note that there are many common features, such as 24-hour toll-free assistance hotlines; child button lockouts; full training; temporary basal rate options; programmable reminders; downloadable glucose data; low insulin warnings; low battery warnings; and user-set active insulin times. Other features vary and may influence a patient’s choice of pump. These include color vs black-and-white screen (which can impact patients with impaired vision); tubeless versus insulin tubes; insulin cartridge size; compatibility and integration with CGMs; various degrees of water resistance; and hypoglycemia suspension.12
Q Does insurance cover insulin pumps?
Insurance coverage varies and may be offered on a case-by-case basis. Also, some insurers have preferred insulin pumps just as they have a preferred formulary.
Some insurance companies may require patients to use multiple daily injections for at least six months prior to pump approval. Prior authorization for a pump trial (of a specific duration) may be required; after trial completion, another prior authorization may be needed before approval is granted. During the trial, the patient will need to demonstrate competency in self-management with the pump, motivation to continue use, and commitment to making dietary and lifestyle changes. Some insurers may want to see A1C lowered to less than 7%, although this stipulation may be assessed by case, particularly in patients with risk factors for poor glycemic control (eg, recurrent hypoglycemia, severe hypoglycemic episode, dawn phenomenon, large glycemic excursions, or pregnancy). Others will require patients to complete a comprehensive diabetes education program within two years prior to pump initiation.13,14
For Medicare-qualified patients, pump supplies may not be covered; they may have to rely on supplemental insurance or switch therapies if insulin pump usage is not financially feasible. Under “original Medicare,” patients pay 20% of the Medicare-approved amount after the part B deductible for pump equipment (which is categorized as durable medical equipment). Medicare does pay for 80% of the insulin cost, but coverage can differ by case.15
Q What are CGMs, and are they required?
CGMs are small, external devices that sample glucose from the interstitial fluid using an electrode under the skin. The electrode transmits information to a display device, which can alert patients of patient-specific glucose values: if a high or low glucose value is reached; if the glucose value is predicted to change; or the rate of glucose value change.
CGMs do not completely replace testing glucose levels, as they typically need to be calibrated two or more times throughout the day (though upcoming technology may reduce that to one or no calibrations). During calibration, patients manually check their glucose levels and enter readings into the CGM to ensure accuracy.
CGMs are not required, but they can enhance a patient’s insulin pump experience. Some CGMs “talk” directly with insulin pumps, so users do not have to manually input glucose levels. However, while there is even a CGM on the market that allows insulin dosing without a finger-prick, most sensors encourage patients to dose insulin based on manual glucose readings rather than CGM readings. A notable exception is a CGM “talking” to an insulin pump with a safety feature that can temporarily shut off the pump if low glucose levels are detected or predicted.16-18
Q What are the latest advances in insulin pumps?
In September 2016, the FDA approved Medtronic’s hybrid closed-loop system for use by patients (ages 14 and older) with type 1 diabetes who use 8 U or more of insulin daily. This new insulin pump system, which uses a CGM, is sometimes referred to as an “artificial pancreas.” It tracks glucose levels every five minutes, increasing or decreasing basal insulin rates according to a glucose-based algorithm (though users still bolus at mealtimes by entering carbohydrates and calibrating their sensor).19,20 Approval was based on results from a study of patients ages 14 to 75 with type 1 diabetes, which showed a reduction in A1C from 7.4% to 6.9%, without severe hypoglycemia or diabetic ketoacidosis. The percentage of patients in target range (defined as 70-180 mg/dL) increased from 66.7% at baseline to 72.2% at the end of the study.21 Medtronic officially launched the device in June 2017.
Other manufacturers are not far behind. Tandem is currently participating in an NIH-funded International Diabetes Closed Loop (IDCL) Trial of combined technology from Tandem Diabetes Care, Dexcom, and TypeZero (a software company). The company projects a launch date of late 2018 for their product.22
Editor’s Note: At press time, Animas had announced that it will be discontinuing its insulin pumps in the United States. More information, including a transition plan for patients, is available at www.animaspatientsupport.com.
1. American Diabetes Association. Standards of Medical Care in Diabetes—2016. Diabetes Care. 2016;39(suppl 1):S1-S112.
2. American Diabetes Association. Insulin pumps. www.diabetes.org/living-with-diabetes/treatment-and-care/medication/insulin/insulin-pumps.html. Accessed October 2, 2017.
3. Aronson R, Cohen O, Conget I, et al; OpT2mis Study Group. OpT2mise: a randomized controlled trial to compare insulin pump therapy with multiple daily injections in the treatment of type 2 diabetes—research design and methods. Diabetes Technol Ther. 2014;16:414-420.
4. Ly TT, Brnabic AJ, Eggleston A, et al. A cost-effectiveness analysis of sensor-augmented insulin pump therapy and automated insulin suspension versus standard pump therapy for hypoglycemic unaware patients with type 1 diabetes. Value Health. 2014;17(5):561-569.
5. Palinski-Wade E. Everything you need to know about insulin pumps. Diabetes Forecast. March/April 2017: Consumer Guide. www.diabetesforecast.org/2017/mar-apr/insulin-pumps-101.html. Accessed October 2, 2017.
6. Roche Diabetes Care, Inc. ACCU-CHECK Spirit Combo User’s Manual (2016). www.accu-chek.com/download/file/fid/17481. Accessed October 2, 2017.
7. Tandem Diabetes Care. t:slim Insulin Pump User Guide (2017). https://www.tandemdiabetes.com/docs/default-source/product-documents/tslim-insulin-pump/updated-t-slim-user-guide.pdf. Accessed October 2, 2017.
8. Medtronic. Using the Minimed 630G Insulin Pump (2016). www.medtronicdiabetes.com/sites/default/files/library/download-library/workbooks/950M15270-011.pdf. Accessed October 2, 2017.
9. Omnipod. UST400 user guide: insulin management system (2015). https://www.myomnipod.com/sites/default/files/pdf/ust400_user_guide_EN.pdf. Accessed October 2, 2017.
10. Animas. Diabetes training resources (2017). www.animas.com/diabetes-education-and-training/diabetes-resources. Accessed October 2, 2017.
11. SOOIL Development Co, Ltd. DANA Diabecare R (2017). http://sooil.com/eng/product. Accessed October 2, 2017.
12. Integrated Diabetes Services. Top insulin pump comparisons (2016). http://integrateddiabetes.com/insulin-pump-comparisons. Accessed October 2, 2017.
13. MassHealth. Guidelines for medical necessity determination for ambulatory infusion pumps (insulin pumps) (2011). www.mass.gov/eohhs/docs/masshealth/guidelines/insulin-pump-guideline.pdf. Accessed October 2, 2017.
14. Anthem. Clinical UM Guideline (2017). www.anthem.com/medicalpolicies/guidelines/gl_pw_a053532.htm. Accessed October 2, 2017.
15. Centers for Medicare & Medicaid Services. Your Medicare coverage: insulin pumps and supplies. www.medicare.gov/coverage/infusion-pumps.html. Accessed October 2, 2017.
16. Dexcom. What is continuous glucose monitoring? (2017). www.dexcom.com/continuous-glucose-monitoring. Accessed October 2, 2017.
17. Medtronic. Continuous glucose monitoring (2017). www.medtronicdiabetes.com/treatments/continuous-glucose-monitoring. Accessed October 2, 2017.
18. Medtronic. SmartGuard low management suspend quick reference (2017). www.medtronicdiabetes.com/customer-support/minimed-670g-system-support/smartguard-quick-reference. Accessed October 2, 2017.
19. FDA. FDA approves first automated insulin delivery device for type 1 diabetes [press release]. September 28, 2016. www.fda.gov/NewsEvents/Newsroom/PressAnnouncements/ucm522974.htm. Accessed October 2, 2017.
20. FDA. Medical devices: the 670G System - P160017 (2016). www.fda.gov/MedicalDevices/ProductsandMedicalProcedures/DeviceApprovalsandClearances/Recently-ApprovedDevices/ucm522764.htm. Accessed October 2, 2017.
21. Bergenstal RM, Garg S, Weinzimer SA, et al. Safety of a hybrid closed-loop insulin delivery system in patients with type 1 diabetes. JAMA. .
With new technology available to aid patients, diabetes management in the 21st century is moving beyond metformin. Among these advances are insulin pumps, which are not just for the young and tech-savvy. In fact, in 2016, the American Diabetes Association (ADA) revised their Standards in Medical Care to recommend patients 65 and older continue to use their insulin pumps and continuous glucose monitoring devices (CGMs), rather than forego technology for more traditional treatment options.1
Insulin pumps enhance or mimic the role of the pancreas by providing a background, or basal, rate of insulin, as well as boluses for food or glucose corrections. A small catheter is inserted under the skin—in the same areas used for injections (eg, arm, thigh, abdomen)—to release insulin.2
While the benefits of technology cannot always be quantified, there are data to suggest insulin pumps can reduce A1C by 1.1% in patients with type 2 diabetes. In tandem with CGMs, insulin pumps have been shown to be cost effective in those with a history of severe hypoglycemia.3,4
Q When should patients consider using an insulin pump?
Patients with type 1 or type 2 diabetes can benefit from an insulin pump. In particular, they can be useful for patients who
Are tired of multiple daily injections. Insulin is still bolused at mealtime—just electronically.
Require a tailored approach. Multiple basal settings can be programmed to reflect activity and work level; some patients need more insulin on active days and less on sedentary days.
Have an on-the-go lifestyle. Insulin pumps replace multiple daily injections, as noted, which helps when patients miss manual injections due to accessibility issues.
Value discretion. Those who wear restrictive uniforms for work or simply desire privacy may benefit from an insulin pump model that can bolus via remote control, without physical access to the pump.
Have found other treatments suboptimal. Some insurers allow patients to try a pump before a decision is made.
Experience hypoglycemia unawareness. Some pumps work with CGMs to suspend insulin delivery with a low glucose level; proper use of a pump can help to restore patient awareness of their condition.
Are sensitive to insulin. Select pumps can deliver insulin at a rate of one-hundredth of a unit at a time.
Experience the dawn phenomenon or Somogyi effect. Patients with high early-morning glucose levels can adjust their rates to combat hyperglycemia, and those with overnight lows and rebounding hyperglycemia can adjust their basal rates or nighttime snacking settings to prevent this occurrence.
Q Who would be an ideal candidate?
Motivated patients who want to attain glycemic control and adhere to the recommendations of their care team are ideally suited to insulin pump use. Insurance companies want to ensure patient safety, so before approving coverage for an insulin pump, they may require patients to demonstrate their willingness to adjust their lifestyle, work with their diabetes educator and/or provider team, and test routinely in the weeks or months leading up to the final decision—all expected behavior while using pump therapy.
Q How do you initiate insulin pump therapy?
With any new treatment, clear communication is key. Patients should schedule specific appointments with their provider and diabetes team to know what is expected from both parties during this process.
Pump selection should be individualized choice, depending on the patient’s goals, lifestyle, and a thorough review of the pros and cons of each pump. When a selection has been made, patients can begin testing—at least four times daily, before meals and at bedtime, as required by most insurers. Representatives from the pump’s manufacturer can be a helpful resource for questions about the particular pump, as well as a liaison to the insurance company if clarifications are needed.
Each practice is different, but once insurance coverage is determined, the patient may be asked to review his/her food log with the team. Those who count carbohydrates may be assessed for their ability to accurately measure and record this information, since it improves the accuracy of insulin boluses and effectiveness of treatment. Patients who do not count carbs should be advised of alternative options, such as capping meals at a certain carbohydrate amount (eg, 60 to 75 g, based on labels) or carbohydrate exchanges (eg, if a typical serving size is 15 g, patients may have 3 servings per meal).
The comfort level of the practice and the care team, as well as the patient, may influence how pump therapy is initiated. Some care teams may decide to do a trial run with saline for safety, to ensure the patient is using the pump properly before advancing to insulin.
Q What are some features to consider when selecting a pump?
The practical reality is that individual practices and providers are unlikely to offer every possible insulin pump; a practice may not have the software needed to download data from every type of pump. Patients must be comfortable with their choice of pump—but so must providers. A clinician may be more familiar and/or comfortable with a particular pump (or pumps), based in part on his/her relationship with the manufacturer. If the provider feels sufficiently educated, he or she is better equipped to advise the patient on usage.
Some of the insulin pumps available in the United States are described in the table.5-11 Note that there are many common features, such as 24-hour toll-free assistance hotlines; child button lockouts; full training; temporary basal rate options; programmable reminders; downloadable glucose data; low insulin warnings; low battery warnings; and user-set active insulin times. Other features vary and may influence a patient’s choice of pump. These include color vs black-and-white screen (which can impact patients with impaired vision); tubeless versus insulin tubes; insulin cartridge size; compatibility and integration with CGMs; various degrees of water resistance; and hypoglycemia suspension.12
Q Does insurance cover insulin pumps?
Insurance coverage varies and may be offered on a case-by-case basis. Also, some insurers have preferred insulin pumps just as they have a preferred formulary.
Some insurance companies may require patients to use multiple daily injections for at least six months prior to pump approval. Prior authorization for a pump trial (of a specific duration) may be required; after trial completion, another prior authorization may be needed before approval is granted. During the trial, the patient will need to demonstrate competency in self-management with the pump, motivation to continue use, and commitment to making dietary and lifestyle changes. Some insurers may want to see A1C lowered to less than 7%, although this stipulation may be assessed by case, particularly in patients with risk factors for poor glycemic control (eg, recurrent hypoglycemia, severe hypoglycemic episode, dawn phenomenon, large glycemic excursions, or pregnancy). Others will require patients to complete a comprehensive diabetes education program within two years prior to pump initiation.13,14
For Medicare-qualified patients, pump supplies may not be covered; they may have to rely on supplemental insurance or switch therapies if insulin pump usage is not financially feasible. Under “original Medicare,” patients pay 20% of the Medicare-approved amount after the part B deductible for pump equipment (which is categorized as durable medical equipment). Medicare does pay for 80% of the insulin cost, but coverage can differ by case.15
Q What are CGMs, and are they required?
CGMs are small, external devices that sample glucose from the interstitial fluid using an electrode under the skin. The electrode transmits information to a display device, which can alert patients of patient-specific glucose values: if a high or low glucose value is reached; if the glucose value is predicted to change; or the rate of glucose value change.
CGMs do not completely replace testing glucose levels, as they typically need to be calibrated two or more times throughout the day (though upcoming technology may reduce that to one or no calibrations). During calibration, patients manually check their glucose levels and enter readings into the CGM to ensure accuracy.
CGMs are not required, but they can enhance a patient’s insulin pump experience. Some CGMs “talk” directly with insulin pumps, so users do not have to manually input glucose levels. However, while there is even a CGM on the market that allows insulin dosing without a finger-prick, most sensors encourage patients to dose insulin based on manual glucose readings rather than CGM readings. A notable exception is a CGM “talking” to an insulin pump with a safety feature that can temporarily shut off the pump if low glucose levels are detected or predicted.16-18
Q What are the latest advances in insulin pumps?
In September 2016, the FDA approved Medtronic’s hybrid closed-loop system for use by patients (ages 14 and older) with type 1 diabetes who use 8 U or more of insulin daily. This new insulin pump system, which uses a CGM, is sometimes referred to as an “artificial pancreas.” It tracks glucose levels every five minutes, increasing or decreasing basal insulin rates according to a glucose-based algorithm (though users still bolus at mealtimes by entering carbohydrates and calibrating their sensor).19,20 Approval was based on results from a study of patients ages 14 to 75 with type 1 diabetes, which showed a reduction in A1C from 7.4% to 6.9%, without severe hypoglycemia or diabetic ketoacidosis. The percentage of patients in target range (defined as 70-180 mg/dL) increased from 66.7% at baseline to 72.2% at the end of the study.21 Medtronic officially launched the device in June 2017.
Other manufacturers are not far behind. Tandem is currently participating in an NIH-funded International Diabetes Closed Loop (IDCL) Trial of combined technology from Tandem Diabetes Care, Dexcom, and TypeZero (a software company). The company projects a launch date of late 2018 for their product.22
Editor’s Note: At press time, Animas had announced that it will be discontinuing its insulin pumps in the United States. More information, including a transition plan for patients, is available at www.animaspatientsupport.com.
With new technology available to aid patients, diabetes management in the 21st century is moving beyond metformin. Among these advances are insulin pumps, which are not just for the young and tech-savvy. In fact, in 2016, the American Diabetes Association (ADA) revised their Standards in Medical Care to recommend patients 65 and older continue to use their insulin pumps and continuous glucose monitoring devices (CGMs), rather than forego technology for more traditional treatment options.1
Insulin pumps enhance or mimic the role of the pancreas by providing a background, or basal, rate of insulin, as well as boluses for food or glucose corrections. A small catheter is inserted under the skin—in the same areas used for injections (eg, arm, thigh, abdomen)—to release insulin.2
While the benefits of technology cannot always be quantified, there are data to suggest insulin pumps can reduce A1C by 1.1% in patients with type 2 diabetes. In tandem with CGMs, insulin pumps have been shown to be cost effective in those with a history of severe hypoglycemia.3,4
Q When should patients consider using an insulin pump?
Patients with type 1 or type 2 diabetes can benefit from an insulin pump. In particular, they can be useful for patients who
Are tired of multiple daily injections. Insulin is still bolused at mealtime—just electronically.
Require a tailored approach. Multiple basal settings can be programmed to reflect activity and work level; some patients need more insulin on active days and less on sedentary days.
Have an on-the-go lifestyle. Insulin pumps replace multiple daily injections, as noted, which helps when patients miss manual injections due to accessibility issues.
Value discretion. Those who wear restrictive uniforms for work or simply desire privacy may benefit from an insulin pump model that can bolus via remote control, without physical access to the pump.
Have found other treatments suboptimal. Some insurers allow patients to try a pump before a decision is made.
Experience hypoglycemia unawareness. Some pumps work with CGMs to suspend insulin delivery with a low glucose level; proper use of a pump can help to restore patient awareness of their condition.
Are sensitive to insulin. Select pumps can deliver insulin at a rate of one-hundredth of a unit at a time.
Experience the dawn phenomenon or Somogyi effect. Patients with high early-morning glucose levels can adjust their rates to combat hyperglycemia, and those with overnight lows and rebounding hyperglycemia can adjust their basal rates or nighttime snacking settings to prevent this occurrence.
Q Who would be an ideal candidate?
Motivated patients who want to attain glycemic control and adhere to the recommendations of their care team are ideally suited to insulin pump use. Insurance companies want to ensure patient safety, so before approving coverage for an insulin pump, they may require patients to demonstrate their willingness to adjust their lifestyle, work with their diabetes educator and/or provider team, and test routinely in the weeks or months leading up to the final decision—all expected behavior while using pump therapy.
Q How do you initiate insulin pump therapy?
With any new treatment, clear communication is key. Patients should schedule specific appointments with their provider and diabetes team to know what is expected from both parties during this process.
Pump selection should be individualized choice, depending on the patient’s goals, lifestyle, and a thorough review of the pros and cons of each pump. When a selection has been made, patients can begin testing—at least four times daily, before meals and at bedtime, as required by most insurers. Representatives from the pump’s manufacturer can be a helpful resource for questions about the particular pump, as well as a liaison to the insurance company if clarifications are needed.
Each practice is different, but once insurance coverage is determined, the patient may be asked to review his/her food log with the team. Those who count carbohydrates may be assessed for their ability to accurately measure and record this information, since it improves the accuracy of insulin boluses and effectiveness of treatment. Patients who do not count carbs should be advised of alternative options, such as capping meals at a certain carbohydrate amount (eg, 60 to 75 g, based on labels) or carbohydrate exchanges (eg, if a typical serving size is 15 g, patients may have 3 servings per meal).
The comfort level of the practice and the care team, as well as the patient, may influence how pump therapy is initiated. Some care teams may decide to do a trial run with saline for safety, to ensure the patient is using the pump properly before advancing to insulin.
Q What are some features to consider when selecting a pump?
The practical reality is that individual practices and providers are unlikely to offer every possible insulin pump; a practice may not have the software needed to download data from every type of pump. Patients must be comfortable with their choice of pump—but so must providers. A clinician may be more familiar and/or comfortable with a particular pump (or pumps), based in part on his/her relationship with the manufacturer. If the provider feels sufficiently educated, he or she is better equipped to advise the patient on usage.
Some of the insulin pumps available in the United States are described in the table.5-11 Note that there are many common features, such as 24-hour toll-free assistance hotlines; child button lockouts; full training; temporary basal rate options; programmable reminders; downloadable glucose data; low insulin warnings; low battery warnings; and user-set active insulin times. Other features vary and may influence a patient’s choice of pump. These include color vs black-and-white screen (which can impact patients with impaired vision); tubeless versus insulin tubes; insulin cartridge size; compatibility and integration with CGMs; various degrees of water resistance; and hypoglycemia suspension.12
Q Does insurance cover insulin pumps?
Insurance coverage varies and may be offered on a case-by-case basis. Also, some insurers have preferred insulin pumps just as they have a preferred formulary.
Some insurance companies may require patients to use multiple daily injections for at least six months prior to pump approval. Prior authorization for a pump trial (of a specific duration) may be required; after trial completion, another prior authorization may be needed before approval is granted. During the trial, the patient will need to demonstrate competency in self-management with the pump, motivation to continue use, and commitment to making dietary and lifestyle changes. Some insurers may want to see A1C lowered to less than 7%, although this stipulation may be assessed by case, particularly in patients with risk factors for poor glycemic control (eg, recurrent hypoglycemia, severe hypoglycemic episode, dawn phenomenon, large glycemic excursions, or pregnancy). Others will require patients to complete a comprehensive diabetes education program within two years prior to pump initiation.13,14
For Medicare-qualified patients, pump supplies may not be covered; they may have to rely on supplemental insurance or switch therapies if insulin pump usage is not financially feasible. Under “original Medicare,” patients pay 20% of the Medicare-approved amount after the part B deductible for pump equipment (which is categorized as durable medical equipment). Medicare does pay for 80% of the insulin cost, but coverage can differ by case.15
Q What are CGMs, and are they required?
CGMs are small, external devices that sample glucose from the interstitial fluid using an electrode under the skin. The electrode transmits information to a display device, which can alert patients of patient-specific glucose values: if a high or low glucose value is reached; if the glucose value is predicted to change; or the rate of glucose value change.
CGMs do not completely replace testing glucose levels, as they typically need to be calibrated two or more times throughout the day (though upcoming technology may reduce that to one or no calibrations). During calibration, patients manually check their glucose levels and enter readings into the CGM to ensure accuracy.
CGMs are not required, but they can enhance a patient’s insulin pump experience. Some CGMs “talk” directly with insulin pumps, so users do not have to manually input glucose levels. However, while there is even a CGM on the market that allows insulin dosing without a finger-prick, most sensors encourage patients to dose insulin based on manual glucose readings rather than CGM readings. A notable exception is a CGM “talking” to an insulin pump with a safety feature that can temporarily shut off the pump if low glucose levels are detected or predicted.16-18
Q What are the latest advances in insulin pumps?
In September 2016, the FDA approved Medtronic’s hybrid closed-loop system for use by patients (ages 14 and older) with type 1 diabetes who use 8 U or more of insulin daily. This new insulin pump system, which uses a CGM, is sometimes referred to as an “artificial pancreas.” It tracks glucose levels every five minutes, increasing or decreasing basal insulin rates according to a glucose-based algorithm (though users still bolus at mealtimes by entering carbohydrates and calibrating their sensor).19,20 Approval was based on results from a study of patients ages 14 to 75 with type 1 diabetes, which showed a reduction in A1C from 7.4% to 6.9%, without severe hypoglycemia or diabetic ketoacidosis. The percentage of patients in target range (defined as 70-180 mg/dL) increased from 66.7% at baseline to 72.2% at the end of the study.21 Medtronic officially launched the device in June 2017.
Other manufacturers are not far behind. Tandem is currently participating in an NIH-funded International Diabetes Closed Loop (IDCL) Trial of combined technology from Tandem Diabetes Care, Dexcom, and TypeZero (a software company). The company projects a launch date of late 2018 for their product.22
Editor’s Note: At press time, Animas had announced that it will be discontinuing its insulin pumps in the United States. More information, including a transition plan for patients, is available at www.animaspatientsupport.com.
1. American Diabetes Association. Standards of Medical Care in Diabetes—2016. Diabetes Care. 2016;39(suppl 1):S1-S112.
2. American Diabetes Association. Insulin pumps. www.diabetes.org/living-with-diabetes/treatment-and-care/medication/insulin/insulin-pumps.html. Accessed October 2, 2017.
3. Aronson R, Cohen O, Conget I, et al; OpT2mis Study Group. OpT2mise: a randomized controlled trial to compare insulin pump therapy with multiple daily injections in the treatment of type 2 diabetes—research design and methods. Diabetes Technol Ther. 2014;16:414-420.
4. Ly TT, Brnabic AJ, Eggleston A, et al. A cost-effectiveness analysis of sensor-augmented insulin pump therapy and automated insulin suspension versus standard pump therapy for hypoglycemic unaware patients with type 1 diabetes. Value Health. 2014;17(5):561-569.
5. Palinski-Wade E. Everything you need to know about insulin pumps. Diabetes Forecast. March/April 2017: Consumer Guide. www.diabetesforecast.org/2017/mar-apr/insulin-pumps-101.html. Accessed October 2, 2017.
6. Roche Diabetes Care, Inc. ACCU-CHECK Spirit Combo User’s Manual (2016). www.accu-chek.com/download/file/fid/17481. Accessed October 2, 2017.
7. Tandem Diabetes Care. t:slim Insulin Pump User Guide (2017). https://www.tandemdiabetes.com/docs/default-source/product-documents/tslim-insulin-pump/updated-t-slim-user-guide.pdf. Accessed October 2, 2017.
8. Medtronic. Using the Minimed 630G Insulin Pump (2016). www.medtronicdiabetes.com/sites/default/files/library/download-library/workbooks/950M15270-011.pdf. Accessed October 2, 2017.
9. Omnipod. UST400 user guide: insulin management system (2015). https://www.myomnipod.com/sites/default/files/pdf/ust400_user_guide_EN.pdf. Accessed October 2, 2017.
10. Animas. Diabetes training resources (2017). www.animas.com/diabetes-education-and-training/diabetes-resources. Accessed October 2, 2017.
11. SOOIL Development Co, Ltd. DANA Diabecare R (2017). http://sooil.com/eng/product. Accessed October 2, 2017.
12. Integrated Diabetes Services. Top insulin pump comparisons (2016). http://integrateddiabetes.com/insulin-pump-comparisons. Accessed October 2, 2017.
13. MassHealth. Guidelines for medical necessity determination for ambulatory infusion pumps (insulin pumps) (2011). www.mass.gov/eohhs/docs/masshealth/guidelines/insulin-pump-guideline.pdf. Accessed October 2, 2017.
14. Anthem. Clinical UM Guideline (2017). www.anthem.com/medicalpolicies/guidelines/gl_pw_a053532.htm. Accessed October 2, 2017.
15. Centers for Medicare & Medicaid Services. Your Medicare coverage: insulin pumps and supplies. www.medicare.gov/coverage/infusion-pumps.html. Accessed October 2, 2017.
16. Dexcom. What is continuous glucose monitoring? (2017). www.dexcom.com/continuous-glucose-monitoring. Accessed October 2, 2017.
17. Medtronic. Continuous glucose monitoring (2017). www.medtronicdiabetes.com/treatments/continuous-glucose-monitoring. Accessed October 2, 2017.
18. Medtronic. SmartGuard low management suspend quick reference (2017). www.medtronicdiabetes.com/customer-support/minimed-670g-system-support/smartguard-quick-reference. Accessed October 2, 2017.
19. FDA. FDA approves first automated insulin delivery device for type 1 diabetes [press release]. September 28, 2016. www.fda.gov/NewsEvents/Newsroom/PressAnnouncements/ucm522974.htm. Accessed October 2, 2017.
20. FDA. Medical devices: the 670G System - P160017 (2016). www.fda.gov/MedicalDevices/ProductsandMedicalProcedures/DeviceApprovalsandClearances/Recently-ApprovedDevices/ucm522764.htm. Accessed October 2, 2017.
21. Bergenstal RM, Garg S, Weinzimer SA, et al. Safety of a hybrid closed-loop insulin delivery system in patients with type 1 diabetes. JAMA. .
1. American Diabetes Association. Standards of Medical Care in Diabetes—2016. Diabetes Care. 2016;39(suppl 1):S1-S112.
2. American Diabetes Association. Insulin pumps. www.diabetes.org/living-with-diabetes/treatment-and-care/medication/insulin/insulin-pumps.html. Accessed October 2, 2017.
3. Aronson R, Cohen O, Conget I, et al; OpT2mis Study Group. OpT2mise: a randomized controlled trial to compare insulin pump therapy with multiple daily injections in the treatment of type 2 diabetes—research design and methods. Diabetes Technol Ther. 2014;16:414-420.
4. Ly TT, Brnabic AJ, Eggleston A, et al. A cost-effectiveness analysis of sensor-augmented insulin pump therapy and automated insulin suspension versus standard pump therapy for hypoglycemic unaware patients with type 1 diabetes. Value Health. 2014;17(5):561-569.
5. Palinski-Wade E. Everything you need to know about insulin pumps. Diabetes Forecast. March/April 2017: Consumer Guide. www.diabetesforecast.org/2017/mar-apr/insulin-pumps-101.html. Accessed October 2, 2017.
6. Roche Diabetes Care, Inc. ACCU-CHECK Spirit Combo User’s Manual (2016). www.accu-chek.com/download/file/fid/17481. Accessed October 2, 2017.
7. Tandem Diabetes Care. t:slim Insulin Pump User Guide (2017). https://www.tandemdiabetes.com/docs/default-source/product-documents/tslim-insulin-pump/updated-t-slim-user-guide.pdf. Accessed October 2, 2017.
8. Medtronic. Using the Minimed 630G Insulin Pump (2016). www.medtronicdiabetes.com/sites/default/files/library/download-library/workbooks/950M15270-011.pdf. Accessed October 2, 2017.
9. Omnipod. UST400 user guide: insulin management system (2015). https://www.myomnipod.com/sites/default/files/pdf/ust400_user_guide_EN.pdf. Accessed October 2, 2017.
10. Animas. Diabetes training resources (2017). www.animas.com/diabetes-education-and-training/diabetes-resources. Accessed October 2, 2017.
11. SOOIL Development Co, Ltd. DANA Diabecare R (2017). http://sooil.com/eng/product. Accessed October 2, 2017.
12. Integrated Diabetes Services. Top insulin pump comparisons (2016). http://integrateddiabetes.com/insulin-pump-comparisons. Accessed October 2, 2017.
13. MassHealth. Guidelines for medical necessity determination for ambulatory infusion pumps (insulin pumps) (2011). www.mass.gov/eohhs/docs/masshealth/guidelines/insulin-pump-guideline.pdf. Accessed October 2, 2017.
14. Anthem. Clinical UM Guideline (2017). www.anthem.com/medicalpolicies/guidelines/gl_pw_a053532.htm. Accessed October 2, 2017.
15. Centers for Medicare & Medicaid Services. Your Medicare coverage: insulin pumps and supplies. www.medicare.gov/coverage/infusion-pumps.html. Accessed October 2, 2017.
16. Dexcom. What is continuous glucose monitoring? (2017). www.dexcom.com/continuous-glucose-monitoring. Accessed October 2, 2017.
17. Medtronic. Continuous glucose monitoring (2017). www.medtronicdiabetes.com/treatments/continuous-glucose-monitoring. Accessed October 2, 2017.
18. Medtronic. SmartGuard low management suspend quick reference (2017). www.medtronicdiabetes.com/customer-support/minimed-670g-system-support/smartguard-quick-reference. Accessed October 2, 2017.
19. FDA. FDA approves first automated insulin delivery device for type 1 diabetes [press release]. September 28, 2016. www.fda.gov/NewsEvents/Newsroom/PressAnnouncements/ucm522974.htm. Accessed October 2, 2017.
20. FDA. Medical devices: the 670G System - P160017 (2016). www.fda.gov/MedicalDevices/ProductsandMedicalProcedures/DeviceApprovalsandClearances/Recently-ApprovedDevices/ucm522764.htm. Accessed October 2, 2017.
21. Bergenstal RM, Garg S, Weinzimer SA, et al. Safety of a hybrid closed-loop insulin delivery system in patients with type 1 diabetes. JAMA. .