Long-chain functional bisphosphonates: synthesis, anticalcification, and antiresorption activity

Chen, Ravit; Schlossman, Ada; Breuer, Eli; Häagele, Gerhard; Tillmann, Christian; Gelder, Joel M. Van; Golomb, Gershon

doi:10.1002/1098-1071(2000)11:7<470::aid-hc5>3.0.co;2-p

Cited by 26 publications

(1 citation statement)

References 44 publications

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“…Further studies are therefore required to identify the underlying cause of bone resorption and to possibly counteract it. For example, combined anti-resorptive therapies, such as bisphosphonates, have been preclinically validated in a variety of bone repair models, especially to reduce BMP catabolic effects (48)(49)(50)(51), and may be considered in future developments. More bone mass would allow the patient to receive tooth implants after the primary procedure and without need of additional bone transfer to the defect site.…”

Section: Discussionmentioning

confidence: 99%

Case Report: Reconstruction of a Large Maxillary Defect With an Engineered, Vascularized, Prefabricated Bone Graft

et al. 2021

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The reconstruction of complex midface defects is a challenging clinical scenario considering the high anatomical, functional, and aesthetic requirements. In this study, we proposed a surgical treatment to achieve improved oral rehabilitation and anatomical and functional reconstruction of a complex defect of the maxilla with a vascularized, engineered composite graft. The patient was a 39-year-old female, postoperative after left hemimaxillectomy for ameloblastic carcinoma in 2010 and tumor-free at the 5-year oncological follow-up. The left hemimaxillary defect was restored in a two-step approach. First, a composite graft was ectopically engineered using autologous stromal vascular fraction (SVF) cells seeded on an allogenic devitalized bone matrix. The resulting construct was further loaded with bone morphogenic protein-2 (BMP-2), wrapped within the latissimus dorsi muscle, and pedicled with an arteriovenous (AV) bundle. Subsequently, the prefabricated graft was orthotopically transferred into the defect site and revascularized through microvascular surgical techniques. The prefabricated graft contained vascularized bone tissue embedded within muscular tissue. Despite unexpected resorption, its orthotopic transfer enabled restoration of the orbital floor, separation of the oral and nasal cavities, and midface symmetry and allowed the patient to return to normal diet as well as to restore normal speech and swallowing function. These results remained stable for the entire follow-up period of 2 years. This clinical case demonstrates the safety and the feasibility of composite graft engineering for the treatment of complex maxillary defects. As compared to the current gold standard of autologous tissue transfer, this patient’s benefits included decreased donor site morbidity and improved oral rehabilitation. Bone resorption of the construct at the ectopic prefabrication site still needs to be further addressed to preserve the designed graft size and shape.

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Section: Discussionmentioning

confidence: 99%

Case Report: Reconstruction of a Large Maxillary Defect With an Engineered, Vascularized, Prefabricated Bone Graft

et al. 2021

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Methods for the Introduction of the Phosphonate Moiety into Complex Organic Molecules

2019

Organophosphorus Chemistry

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Microwave Michaelis–Becker synthesis of diethyl phosphonates, tetraethyl diphosphonates, and their total or partial dealkylation

Meziane¹,

Hardouin²,

Elias³

et al. 2009

Heteroatom Chemistry

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Diethyl phosphonates and tetraethyl alkyldiphosphonates were efficiently and rapidly prepared via the Michaelis–Becker reaction, under microwave irradiation. These compounds were then hydrolyzed to phosphonic and diphosphonic acids or selectively monodealkylated to give monoesters of phosphonic acids and symmetrical diethyl esters of diphosphonic acids. These reactions were also achieved rapidly in satisfactory yields with microwave methodology. This methodology was applied with success to the functionalization of a polymer resin. © 2009 Wiley Periodicals, Inc. Heteroatom Chem 20:369–377, 2009; Published online in Wiley InterScience (www.interscience.wiley.com). DOI 10.1002/hc.20561

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Long-chain functional bisphosphonates: synthesis, anticalcification, and antiresorption activity

Cited by 26 publications

References 44 publications

Case Report: Reconstruction of a Large Maxillary Defect With an Engineered, Vascularized, Prefabricated Bone Graft

Case Report: Reconstruction of a Large Maxillary Defect With an Engineered, Vascularized, Prefabricated Bone Graft

Methods for the Introduction of the Phosphonate Moiety into Complex Organic Molecules

Microwave Michaelis–Becker synthesis of diethyl phosphonates, tetraethyl diphosphonates, and their total or partial dealkylation

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