ABSTRACT
@#Periodontitis is the most common oral disease and has a high incidence in humans. Periodontitis seriously affects the function of the oral and maxillofacial systems and is the most important cause of tooth loss in adults. In addition, as a long-term and persistent source of infection, periodontitis can not only trigger chronic inflammation and immune responses but also has an important impact on systemic health. Traditional periodontitis treatment focuses on inflammation control, and although this can prevent or delay the progression of the disease, satisfactory periodontal lesion tissue regeneration is difficult to obtain. With the introduction of new technologies and new materials such as guided tissue regeneration, bone grafting, growth factors and biological materials for the treatment of periodontitis, the method of periodontal tissue regeneration is more abundant, and the clinical effect has been greatly improved. In the future, stem cell transplantation and endogenous regeneration strategies are expected to become important methods for physiological and functional regeneration of periodontal lesions. This article briefly reviews the basic research and clinical application of periodontal tissue regeneration and forecasts the future development prospects and opportunities in this field.
ABSTRACT
The clinical management of periodontal disease is a global concern, and the regeneration of periodontal tissue defects due to periodontitis faces a huge challenge in the field of regenerative dentistry. Although conventional periodontal therapies focusing on in flammation control could stop or delay the progression of the disease, periodontal regeneration remains an elusive but laudable goal. Since late 1980s, concerted efforts have been made to accelerate and augment periodontal repair by using guided tissue regeneration (GTR), guided bone regeneration (GBR) and a wide range of other regenerative paradigms. Those advances have largely improved the clinical outcomes of periodontal therapies. In the past several years of 21st century, many progresses were made in the developments of stem cell therapy and tissue engineering, including remarkable biological discoveries in the laboratory as well as great curative successes in preclinical scenarios. The use of the principles, techniques and procedures of tissue engineering in periodontology showed great potential to regenerate new functional periodontal tissues such as alveolar bone, periodontal ligament, root cementum and finally and predictably the normal structure and functionality of the periodontium around a previously diseased tooth.
ABSTRACT
Although currently available drugs are useful in controlling early onset complications of diabetes, serious late onset complications appear in a large number of patients. Considering the physiopathology of diabetes, preventing beta cell degeneration and stimulating the endogenous regeneration of islets will be essential approaches for the treatment of insulin-dependent diabetes mellitus. The current review focused on phytochemicals, the antidiabetic effect of which has been proved by pancreatic beta cell protection/regeneration. Among the hundreds of plants that have been investigated for diabetes, a small fraction has shown the regenerative property and was described in this paper. Processes of pancreatic beta cell degeneration and regeneration were described. Also, the proposed mechanisms for the protective/regenerative effects of such phytochemicals and their potential side effects were discussed.
Embora medicamentos disponíveis atualmente sejam úteis no controle de complicações da Diabetes, complicações aparecem em grande número de pacientes. Considerando-se a fisiopatologia do Diabetes, a prevenção da degeneração de células beta e o estímulo da regeneração endógena de ilhotas será abordagem essencial para o tratamento de diabetes mellitus insulino-dependente. A presente revisão aborda compostos fitoquímicos, cujo efeito é provado na proteção/regeneração de células beta de pâncreas. Entre centenas de plantas que têm sido investigadas para o diabetes, pequena fração tem mostrado propriedade regenerativa, que será descrita neste trabalho. Os processos de degeneração e de regeneração das células beta do pâncrease são descritos. Além disso, mecanismos propostos para efeitos de proteção e regeneração desses compostos fitoquímicos e seus possíveis efeitos colaterais também serão discutidos neste trabalho.