Application of digital technology and platelet-rich fibrin technology in a novel regenerative treatment for posterior lingual furcation defect: a 6-year follow-up case report / 华西口腔医学杂志

Conventional periodontal regenerative surgery has limited effect on tooth with severe periodontitis-related alveolar bone defects. This article reported a case of regenerative treatment in severe distal-bone defect of mandibular first molar. The treatment involved applying 3D printing, advanced/injectable platelet-rich fibrin, and guided tissue-regeneration technology. After the operation, the periodontal clinical index significantly improved and the alveolar bone was well reconstructed.

PLATELET CONCENTRATES FOR PERIODONTAL REGENERATION

@#Platelet concentrates are derivatives of blood that aid in haemostasis and wound healing after periodontal regenerative procedures. Its ability to act as a natural scaffold of growth factors has gained significance in many surgical procedures. This narrative review discusses the different platelet concentrates, their centrifugation protocols, advantages and disadvantages and their application in periodontal regenerative procedures. An electronic search of PubMed or MEDLINE was conducted for relevant material from the published literature up to 2020. The key words looked for were “Platelet concentrates, Platelet rich plasma, Platelet rich fibrin and periodontal regeneration.” We have used the filters comparative human studies, animal studies, randomized controlled trials, case reports and systematic reviews. The searches were limited to articles in English language and articles describing platelet concentrates and its relation to periodontal regeneration were collected and used to prepare a concise review.

Experimental study on autologous injectable platelets rich fibrin combined with bone mesenchymal stem cells in treating sciatic nerve injury in rats / 中国修复重建外科杂志

Objective: To investigate the effectiveness of autologous injectable platelet rich fibrin (i-PRF) combined with bone marrow mesenchymal stem cells (BMSCs) for sciatic nerve injury in rats. Methods: BMSCs were isolated and cultured from tibial bone marrow of Sprague Dawley (SD) neonatal rats aged 10-15 days and passaged to the 4th generation. i-PRF was prepared from posterior orbital venous blood of adult SD rats by improved low-speed centrifugation. Twenty-four adult SD rats were selected and randomly divided into 4 groups with 6 rats in each group after the sciatic nerve Ⅲ degree injury model was established by modified crush injury method. Groups A, B, C, and D were injected with BMSCs suspension+autologous i-PRF, autologous i-PRF, BMSCs suspension, and normal saline, respectively. The Basso-Beattie-Bresnahan (BBB) score was used to evaluate the recovery of neurological function of the affected limb of rats every week from 1 to 8 weeks after operation. At 2 months after operation, the rats were sacrificed and the histological changes of sciatic nerve were observed by HE staining. The microstructural changes of nerve fibers, myelin sheath, and nucleus were observed by transmission electron microscope. The expressions of N-cadherin, Nestin, and glial fibrillary acidic protein (GFAP) were detected by Western blot. Results: No immune rejection or death occurred in the rats after operation. There was no significant difference in BBB scores between groups at 1 week after operation ( P>0.05); at 2-8 weeks after operation, BBB scores in group A were significantly higher than those in groups B, C, and D, and in groups B, C than in group D ( P0.05). HE staining showed that the nerve fibers in group A arranged in order, without defect or demyelination; the nerve fibers in group B were not clear and slightly swollen; some of the nerve fibers in group C were disordered and demyelinated; the nerve fibers in group D were not continuous, obviously demyelinated, and some of the nerve adventitia damaged. Transmission electron microscope showed that the structure of nerve fibers in group A was clear, myelin sheath was complete, and nucleus was dense; group B was slightly less than group A; group C had fuzzy structure, demyelination, and hollowing out; group D had disorder structure, demyelination, and hollowing out, and the middle part of nerve adventitia continuity. Western blot detection results showed that there was no significant difference in the relative expression of Nestin between groups ( P>0.05). The relative expression of N-cadherin was significantly lower in groups B, C, and D than in group A, in groups C and D than in group B, and in group D than in group C ( P0.05). Conclusion: Autologous i-PRF combined with BMSCs can effectively treat sciatic nerve tissue injury in rats.

Uso do hormônio do crescimento associado à fibrina rica em plaquetas e leucócitos injetável (I-PRF) / Use of the growth hormone associated with injectable platelet-rich fibrin (I-PRF)

Objetivo: demonstrar, por meio de uma revisão de literatura, a utilização do hormônio do crescimento (GH) e concentrados plaquetários e sugerir técnica de associação de uso para odontologia em processos de preservação de osso alveolar. Revisão de literatura: enxertos ósseos são uma necessidade na área da saúde, por diversas razões. A utilização de osso autógeno apresenta grande desvantagem em ter um segundo sítio cirúrgico, entretanto, os substitutos ósseos não possuem as características ideais. Assim, existe a busca por alternativas que otimizem a cicatrização e a incorporação dos substitutos ósseos, dentre elas os concentrados sanguíneos, ricos em fatores de crescimento derivados das plaquetas e o hormônio do crescimento. É possível encontrar uma vasta literatura utilizando os concentrados sanguíneos, inclusive utilizando esses como veículos para outras substâncias. Os concentrados sanguíneos são ricos em fatores de crescimento derivados das plaquetas, como fator de crescimento semelhante à insulina (IGF), Fator de crescimento derivado de plaquetas (PDGF) e outros. Além disso, também é possível encontrar, na literatura, o uso tópico de hormônio do crescimento em enxertos ósseos, fraturas e implantes dentários. Entretanto, o GH possui uma meia-vida de 20 minutos, assim, quando utilizado em conjunto com a I-PRF, espera-se um aumento no tempo de ação local. Considerações finais: é possível otimizar os enxertos ósseos utilizando-se L-PRF/I-PRF e hormônio do crescimento. Porém, são necessárias mais pesquisas.(AU)

Objective: this study aims to show through a literature review the use of the growth hormone and platelet concentrates and to suggest an association technique for dentistry use in alveolar bone preservation processes. Literature review: bone grafts are a health requirement for a number of reasons. The use of autogenous bone has the main disadvantage of a second surgical site, while bone substitutes do not present optimal characteristics. Thus, there is a search for alternatives that optimize the healing and incorporation of bone substitutes, which include blood concentrates that are rich in platelet-derived growth factors and the growth hormone. A vast literature can be found on blood concentrates, including their use as vehicles to other substances. Blood concentrates are rich in platelet-derived growth factors such as IGF, PDGF, and others. Moreover, the literature also shows the topical use of the growth hormone in bone grafts, fractures, and dental implants. However, the growth hormone presents a half-life of 20 minutes; therefore, when combined with I-PRF, an increased time in local action is expected. Final considerations: it is possible to optimize bone grafts by using L-PRF/I-PRF and the growth hormone. However, further research is required.(AU)

L-PRF Membrane (Fibrin Rich in Platelets and Leukocytes) and Its Derivatives (A-PRF, i-PRF) are Helpful as a Basis of Stem Cells in Regenerative Injury Treatment: Trial Work on the Horse

Developing a multidisciplinary field of tissue engineering aims to recover, improve or supplant typically damaged or missing tissues for a collection of conditions brought about by trauma, malady and old age. To guarantee that tissue engineering techniques are generally relevant in the clinical setting, it is important to adjust them so that they are promptly accessible and moderately simple to use in the everyday clinical schedule. Consequently, the steps between preparation and application must be limited and improved to make them practical in application. The general objective of creating platelet concentrates of natural origin can be delivered near the patient to quicken the implantation procedure, being monetarily practical for the patient and the health framework. Fibrin rich in platelets and leukocytes (PRF) and its derivatives (L-PRF, A-PRF, i-PRF) has been utilized in a wide collection of medical fields for delicate tissue restoration. Practically all platelets (> 97%) are missing within test-tubes in groups tested after PRF membrane extraction. Growth Factors liberated by platelets contained in derivatives of L-PRF induce and control the proliferation and migration of other cell types, associated with tissue repair, similar to smooth cell muscles (SMCs) and mesenchymal stem cells (MSCs). Conclusively, the outcomes of this work feature the positive effects of PRF on wound healing after regenerative treatment for the administration of different delicate tissue defects found in wound care.