Parathyroid Hormone for Bone Regeneration

Overview

Journal J Orthop Res

Publisher Wiley

Specialty Orthopedics

Date 2018 Jun 22

PMID 29926970

Citations 43

Authors

Samantha J Wojda

Seth W Donahue

Affiliations

Soon will be listed here.

Abstract

Delayed healing and/or non-union occur in approximately 5-10% of the fractures that occur annually in the United States. Segmental bone loss increases the probability of non-union. Though grafting can be an effective treatment for segmental bone loss, autografting is limited for large defects since a limited amount of bone is available for harvest. Parathyroid hormone (PTH) is a key regulator of calcium homeostasis in the body and plays an important role in bone metabolism. Presently PTH is FDA approved for use as an anabolic treatment for osteoporosis. The anabolic effect PTH has on bone has led to research on its use for bone regeneration applications. Numerous studies in animal models have indicated enhanced fracture healing as a result of once daily injections of PTH. Similarly, in a human case study, non-union persisted despite treatment attempts with internal fixation, external fixation, and autograft in combination with BMP-7, until off label use of PTH1-84 was utilized. Use of a biomaterial scaffold to locally deliver PTH to a defect site has also been shown to improve bone formation and healing around dental implants in dogs and drill defects in sheep. Thus, PTH may be used to promote bone regeneration and provide an alternative to autograft and BMP for the treatment of large segmental defects and non-unions. This review briefly summarizes the unmet clinical need for improved bone regeneration techniques and how PTH may help fill that void by both systemically and locally delivered PTH for bone regeneration applications. © 2018 Orthopaedic Research Society. Published by Wiley Periodicals, Inc. J Orthop Res 36:2586-2594, 2018.

Citing Articles

Prospective and challenges of locally applied repurposed pharmaceuticals for periodontal tissue regeneration.

El-Nablaway M, Rashed F, Taher E, Abdeen A, Taymour N, Soliman M Front Bioeng Biotechnol. 2024; 12:1400472.

PMID: 39605747 PMC: 11600316. DOI: 10.3389/fbioe.2024.1400472.

Recent Strategies and Advances in Hydrogel-Based Delivery Platforms for Bone Regeneration.

Wang X, Zeng J, Gan D, Ling K, He M, Li J Nanomicro Lett. 2024; 17(1):73.

PMID: 39601916 PMC: 11602938. DOI: 10.1007/s40820-024-01557-4.

Low Rate of Teriparatide Supplementation for the Treatment of Osteoporotic Pelvic Fractures in Elderly Females.

Novikov D, Kelley M, Kain M, Tornetta 3rd P Geriatr Orthop Surg Rehabil. 2024; 15:21514593241296396.

PMID: 39584187 PMC: 11585054. DOI: 10.1177/21514593241296396.

In-silico analysis predicts disruption of normal angiogenesis as a causative factor in osteoporosis pathogenesis.

James R, Subramanyam K, Payva F, E A, Tv V, Sivaramakrishnan V BMC Genom Data. 2024; 25(1):85.

PMID: 39379846 PMC: 11460074. DOI: 10.1186/s12863-024-01269-z.

Monitoring of bone matrix acidification by TRAP and ERK biomarkers in the chronic hypercholesterolemia male rats.

Abd-Al-Ameer D, Albazi W, Muhammed H Open Vet J. 2024; 14(8):1836-1842.

PMID: 39308726 PMC: 11415907. DOI: 10.5455/OVJ.2024.v14.i8.11.