OBJECTIVE: The objective of this study was to assess the potential health and budgetary impacts of implementing a pharmacist-involved team-based hypertension management model in the United States. RESEARCH DESIGN: In 2017, we evaluated a pharmacist-involved team-based care intervention among 3 targeted groups using a microsimulation model designed to estimate cardiovascular event incidence and associated health care spending in a cross-section of individuals representative of the US population: implementing it among patients with: (1) newly diagnosed hypertension; (2) persistently (≥1 year) uncontrolled blood pressure (BP); or (3) treated, yet persistently uncontrolled BP-and report outcomes over 5 and 20 years. We describe the spending thresholds for each intervention strategy to achieve budget neutrality in 5 years from a payer's perspective. RESULTS: Offering this intervention could prevent 22.9-36.8 million person-years of uncontrolled BP and 77,200-230,900 heart attacks and strokes in 5 years (83.8-174.8 million and 393,200-922,900 in 20 years, respectively). Health and economic benefits strongly favored groups 2 and 3. Assuming an intervention cost of $525 per enrollee, the intervention generates 5-year budgetary cost-savings only for Medicare among groups 2 and 3. To achieve budget neutrality in 5 years across all groups, intervention costs per person need to be around $35 for Medicaid, $180 for private insurance, and $335 for Medicare enrollees. CONCLUSIONS: Adopting a pharmacist-involved team-based hypertension model could substantially improve BP control and cardiovascular outcomes in the United States. Net cost-savings among groups 2 and 3 make a compelling case for Medicare, but favorable economics may also be possible for private insurers, particularly if innovations could moderately lower the cost of delivering an effective intervention.
OBJECTIVE: The objective of this study was to assess the potential health and budgetary impacts of implementing a pharmacist-involved team-based hypertension management model in the United States. RESEARCH DESIGN: In 2017, we evaluated a pharmacist-involved team-based care intervention among 3 targeted groups using a microsimulation model designed to estimate cardiovascular event incidence and associated health care spending in a cross-section of individuals representative of the US population: implementing it among patients with: (1) newly diagnosed hypertension; (2) persistently (≥1 year) uncontrolled blood pressure (BP); or (3) treated, yet persistently uncontrolled BP-and report outcomes over 5 and 20 years. We describe the spending thresholds for each intervention strategy to achieve budget neutrality in 5 years from a payer's perspective. RESULTS: Offering this intervention could prevent 22.9-36.8 million person-years of uncontrolled BP and 77,200-230,900 heart attacks and strokes in 5 years (83.8-174.8 million and 393,200-922,900 in 20 years, respectively). Health and economic benefits strongly favored groups 2 and 3. Assuming an intervention cost of $525 per enrollee, the intervention generates 5-year budgetary cost-savings only for Medicare among groups 2 and 3. To achieve budget neutrality in 5 years across all groups, intervention costs per person need to be around $35 for Medicaid, $180 for private insurance, and $335 for Medicare enrollees. CONCLUSIONS: Adopting a pharmacist-involved team-based hypertension model could substantially improve BP control and cardiovascular outcomes in the United States. Net cost-savings among groups 2 and 3 make a compelling case for Medicare, but favorable economics may also be possible for private insurers, particularly if innovations could moderately lower the cost of delivering an effective intervention.
Authors: Verughese Jacob; Sajal K Chattopadhyay; Anilkrishna B Thota; Krista K Proia; Gibril Njie; David P Hopkins; Ramona K C Finnie; Nicolaas P Pronk; Thomas E Kottke Journal: Am J Prev Med Date: 2015-11 Impact factor: 5.043
Authors: S L Ellis; B L Carter; D C Malone; S J Billups; G J Okano; R J Valuck; D J Barnette; C D Sintek; D Covey; B Mason; S Jue; J Carmichael; K Guthrie; R Dombrowski; D R Geraets; M Amato Journal: Pharmacotherapy Date: 2000-12 Impact factor: 4.705
Authors: Jan D Hirsch; Neil Steers; David S Adler; Grace M Kuo; Candis M Morello; Megan Lang; Renu F Singh; Yelena Wood; Robert M Kaplan; Carol M Mangione Journal: Clin Ther Date: 2014-07-30 Impact factor: 3.393
Authors: Hilary K Wall; Matthew D Ritchey; Cathleen Gillespie; John D Omura; Ahmed Jamal; Mary G George Journal: MMWR Morb Mortal Wkly Rep Date: 2018-09-07 Impact factor: 17.586
Authors: Catherine G Derington; Jordan B King; Kelsey B Bryant; Blake T McGee; Andrew E Moran; William S Weintraub; Brandon K Bellows; Adam P Bress Journal: Curr Hypertens Rep Date: 2019-11-07 Impact factor: 5.369
Authors: Karen L Margolis; Steven P Dehmer; JoAnn Sperl-Hillen; Patrick J O'Connor; Stephen E Asche; Anna R Bergdall; Beverly B Green; Rachel A Nyboer; Pamala A Pawloski; Nicole K Trower; Michael V Maciosek Journal: Hypertension Date: 2020-08-31 Impact factor: 10.190
Authors: Steven P Dehmer; Mary E Cogswell; Matthew D Ritchey; Yuling Hong; Michael V Maciosek; Amy B LaFrance; Kakoli Roy Journal: Am J Prev Med Date: 2020-06-09 Impact factor: 5.043