Mini Review
Bone Disease, Different Pathogenesis and Treatment
Da-Yong Lu, Shanghai University, Shanghai200444, PRC, China
Received Date: February 27, 2023; Published Date: March 24, 2023
Abstract
Human bone is a vulnerable tissue requiring high-quality diagnosis and treatment. They are different diseases caused by risk-factors at genetic, accident, nutritional and sporting levels. Different therapeutic convention will be achieved to treat different patients. This editorial highlights disciplines of pharmacology and therapeutics in the clinic.
Keywords: Drug development; Diagnostics; Disease risk; Bone-disease treatment; Clinical trials
Scenarios
Human bone is a vulnerable tissue requiring high-quality diagnosis and treatment. They are different diseases caused by risk-factors at genetic, accident, nutritional and sporting levels. Different therapeutic convention will be achieved to treat different patients. This editorial highlights disciplines of pharmacology and therapeutics in the clinic.
Epidemics
In the life-time of great human population, bone tissue is experienced with at least one type of bone diseases, such as bone fracture, pain, trauma and sport-related diseases [1-2]. Great socioeconomic burdens are placed all across the globes. To ease this financial burden, biomedical study is indispensable.
Diagnosis and Therapeutics
Different symptoms and emergency need different treatment and recovery systems. To achieve better therapeutic outcomes, the progress of diagnosis, instruments, life-style, modern technology and nursery contribute various therapeutic response and outcomes [3-20]. More therapeutic study and clinical application is important.
Disease Recovery
After diverse round of surgery or other treatments, bone disease will enter into recovery stages. Techniques [10-13], emergency [7] and nursery [20] also play key role for symptom alleviation and therapeutic benefiting in the clinic. Following steps will be noticed;
Management systems for recovery
1. Instruments (light or temperature control)
2. Life-style (frequency of sunbath)
3. Personal assistance (cane supports or wheel-chair)
4. Food supports and nutrition
5. Calcium tablets
6. Bio-agents (fish calcitonin and others)
7. Acupuncture
8. Herbal medicine
9. Nursery
10. Therapeutic combination
11. Modern techniques (AI and computer-aid decision and surgery)
Different therapeutics are chosen from high-quality of disease diagnosis. More advanced techniques will be utilized in disease diagnosis, prognosis, surgery and treatments. To promote these management pathways, different types of biomedical experts may participate.
Conclusion
Patho-therapeutic relation of bone diseases must be updated. Expanding clinical therapeutics and cost-effective consideration is indispensable.
Acknowledgement
None.
Conflicts of Interest
No conflicts of Interest.
References
- Melton J (1993) Hip fracture; a worldwide problem today and tomorrow. Bone 14: S1-8.
- Silva DMW (2018) Diagnosis of osteoporosis; bone mineral density, risk factors, or both. EC Orthopaedics 9(7): 500-502.
- Choudhary D, Alam A (2018) Anti-osteoporotic activity of bioactive compounds from Iris germanica targeting NK-Kappa B. EC Pharmacology & Toxicology 6 (8): 665-678
- Lu DY, Shen Y (2020) Bone surgery, tissue and function repairs. EC Orthopaedics 11(3): 1-2
- Lu DY, Che JY, Putta S, Wu HY, Shen Y (2019) How to improve the quality of pharmacotherapy for bone diseases. EC Orthopeadicis 10 (6): 366-369
- Lu DY, Che JY, Shen Y (2018) Osteoporosis, importance for early diagnosis and treatment. EC Orthopaedics 9 (9): 624-625
- Lu DY, Che JY, Shen Y (2018) Clinical treatments of osteoporosis, how to target co-morbidities. EC Orthopaedics 9(11): 781-782
- Negm SH (2018) The possible protective role of powder cuttlefish bone, crab shell and eggshell on osteoporotic rats. J Food and Diary Science 9(10): 111-121
- Lu DY, Che JY, Yarla NS, Putta S, Shen Y (2019) Bone disease recovery strategies, An overview. EC Orthopaedics 10 (1): 1-3
- Moore N, Slater GL (2019) Surgical technique update: Slater modification of minimally invasive brostrom reconstruction. EC Orthopaedics 10 (5): 308-314
- Araujo JL (2018) The role of the orthopedic surgeon in preventing low back pain chronification. EC Orthopaedics 9(12): 809-812
- Harsini SM, Oryan A (2018) Bone grafting and the materials for using in orthopaedics. EC Orthopaedics 9(12): 822-833
- Lu DY, Lu TR, Putta S, Shen Y (2019) Bone disease treatments, math-therapeutic modality. EC Orthopaedics. 10 (3): 140-143
- Zweedijk R, Tylleman C, Schwind P (2020) Scoliosis and osteopathy. Acta Scientific Orthopaedics 3(9): 30-43
- Koleva IB, Yoshinov B (2020) Rehabilitation as an essential element in the clinical practice of orthopaedics and traumatology. Acta Scientific Orthopaedics 3(9): 44-46
- Ban J, Fock V, Aryee DN, Kovar H (2021) Mechanisms, diagnosis and treatment of bone metastases. Cells 10(11): 2944.
- Lu DY, Xu B (2021) Cancer bone metastasis, experimental study. Acta Scientific Orthopaedics 5(12): 1-3: 10.
- Leung PC (2014) Traditional Chinese medicine in orthopaedics-problems and future direction. Open J Therapy Rehibilitations 2 (1): 1-4.
- Che JY, Lu DY (2021) Acupuncture for bone disease treatment. EC Orthopaedics 12(1): 15-16
- Lu DY, Chen YZ, Lu DF, Che JY (2019) Patients care and nursery in different diseases. Hospice and Palliative Medicine International Journal 3(1): 28-30.
-
Da-Yong Lu* and Jin-Yu Che. Bone Disease, Different Pathogenesis and Treatment. Arch Biomed Eng & Biotechnol. 7(2): 2022. ABEB.MS.ID.000657.
-
Danger, Stress, Relationships, Concentration, Education, Ambition, Materialism, Cancer, Limb
-
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.