OSTEOPOROSIS DIAGNOSIS AND TREATMENT

Overview

Journal Rev Bras Ortop

Specialty Orthopedics

Date 2016 Mar 30

PMID 27022545

Citations 7

Authors

Marcio Passini Goncalves DE Souza

Affiliations

Soon will be listed here.

Abstract

Articles that update the state of knowledge regarding osteoporosis run the risk of quickly becoming obsolete because research and studies on osteoporosis today are arousing great interest among researchers, the pharmaceutical and medical equipment industries, governments and even WHO. All orthopedists know about osteoporosis because of its most deleterious effect: osteoporotic fracture. Osteoporosis without fractures does not arouse suspicion because this is a pathological condition with a nonspecific clinical profile. Osteoporotic fractures have an economic cost (from treatment), a social cost (from its sequelae) and a medical cost (from deaths). Many fractures could be avoided through diagnosing osteoporosis prior to the first fracture and thus many temporary and permanent disabilities could be avoided and many lives saved. Awareness of the risk factors for osteoporosis raises suspicions and bone densitometry aids in diagnosis. Treatment should be based on the physiopathology of the disease. Hence, for prevention or treatment of osteoporosis, the activity of osteoclasts should be diminished or the activity of osteoblasts should be increased, or both. Treatment that reduces the incidence of fractures by improving the bone geometry and microarchitecture would be ideal. Newly formed bone tissue needs to have good cell and matrix quality, normal mineralization, a good ratio between mineralized (mechanically resistant) and non-mineralized (flexible) bone, and no accumulated damage. The ideal treatment should have a positive remodeling rate and fast and long-lasting therapeutic effects. Such effects need to be easily detectable. They need to be safe.

Citing Articles

Transcriptome Sequencing Identifies Abnormal lncRNAs and mRNAs and Reveals Potentially Hub Immune-Related mRNA in Osteoporosis with Vertebral Fracture.

Sun R, Duan D, Li R Clin Interv Aging. 2024; 19:203-217.

PMID: 38352274 PMC: 10863500. DOI: 10.2147/CIA.S441251.

Prevention of osteoporosis in menopausal women: A systematic review of nonpharmacological clinical trials.

Mohammadi A, Behboodi Moghadam Z, Ghelichkhani F, Alidost F, Naghizadeh S, Haghparast Z J Educ Health Promot. 2022; 11:287.

PMID: 36438990 PMC: 9683465. DOI: 10.4103/jehp.jehp_1253_21.

Current situation of shared decision making in osteoporosis: A comprehensive literature review of patient decision aids and decision drivers.

Nogues X, Carbonell M, Canals L, Lizan L, Palacios S Health Sci Rep. 2022; 5(6):e849.

PMID: 36425899 PMC: 9679236. DOI: 10.1002/hsr2.849.

Osteoporosis Drug Treatment Update.

Oliveira L, Carneiro M, Souza M, Souza C, Moraes F, Camargo F Rev Bras Ortop (Sao Paulo). 2021; 56(5):550-557.

PMID: 34733425 PMC: 8558937. DOI: 10.1055/s-0040-1714219.

Prevalence of Vitamin D Deficiency in Patients with Minimal Trauma Fractures.

Devigili Junior N, Botega L, Back S, Stipp W, Netto M Rev Bras Ortop (Sao Paulo). 2019; 54(1):69-72.

PMID: 31363246 PMC: 6424815. DOI: 10.1016/j.rbo.2017.10.005.

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