Subject(s)
Erythropoietin/therapeutic use , Genetic Therapy/legislation & jurisprudence , Genetic Therapy/methods , Ownership/legislation & jurisprudence , Patents as Topic/legislation & jurisprudence , Protein Engineering/legislation & jurisprudence , Erythropoietin/economics , Liability, Legal , Recombinant Proteins , United KingdomABSTRACT
Over the last two decades, the ethical implications of patents for biological materials and processes have been the subject of spirited public debate between the many individuals and groups on which the patent system impacts. Whereas copyright, trade marks, and other species of Intellectual Property Rights (IPR) are widely acceptable, the patent system evokes criticism from many quarters, especially in relation to the legal protection of inventions in the Life Sciences. Some of these criticisms expressed by prestigious public organisations are addressed here from the patent professional standpoint.
Subject(s)
Biotechnology/ethics , Biotechnology/legislation & jurisprudence , Patents as Topic/ethics , Patents as Topic/legislation & jurisprudence , Embryo Research/ethics , Embryo Research/legislation & jurisprudence , Europe , Genes , Humans , Intellectual Property , Stem CellsABSTRACT
Academic institutional research constantly produces results worthy of patent protection, but coping with the demands of patent law presents considerable challenges to bioscientists working in these institutions. Inventors need, however, to be aware of recent patent office guidelines and court decisions if they are to seek useful intellectual property as a basis for technology transfer to industry.
Subject(s)
Biotechnology/legislation & jurisprudence , Biotechnology/trends , Patents as Topic , Animals , Biomedical Research/trends , Europe , Government Agencies , Humans , Intellectual Property , International Cooperation , Publishing , United StatesSubject(s)
DNA , Embryo Research/legislation & jurisprudence , Genes , Genetic Research/legislation & jurisprudence , Patents as Topic/ethics , Patents as Topic/legislation & jurisprudence , Stem Cells , Base Sequence , Biotechnology/legislation & jurisprudence , Embryo Research/ethics , Embryo, Mammalian/cytology , Europe , Humans , Ownership/legislation & jurisprudence , Research Embryo Creation/legislation & jurisprudence , United Kingdom , United StatesABSTRACT
BACKGROUND: The aim of this study was to analyze the CO2 laser effects on root surfaces affected by periodontal disease in comparison to scaling and root planing for fibroblast attachment. METHODS: Thirty single-rooted human teeth extracted because of advanced periodontal disease were included in this study. A total of 60 specimens, obtained from all selected teeth, were randomly assigned to 3 groups: 1) control (untreated); 2) hand scaling and root planing (SRP); or 3) laser (CO2 defocused pulsed) and ultrasonic scaling. All the specimens were incubated in Petri dishes with fibroblast suspension, and then observed by scanning electron microscopy (SEM). RESULTS: The control group showed the lowest number of attached cells, with no tightly attached fibroblasts. The laser plus scaling group showed the highest number of attached fibroblasts, with the tightly attached fibroblast prevailing. The laser-treated and scaled root specimens did not show any damage or morphologic alteration of the root surfaces. CONCLUSION: CO2 laser treatment in defocused, pulsed mode with a low power of 2W combined with mechanical instrumentation constitutes a useful tool to condition the root surface and increase fibroblast attachment to root surfaces.
Subject(s)
Cell Adhesion/radiation effects , Dental Scaling , Laser Therapy , Tooth Root/radiation effects , Analysis of Variance , Animals , Bacteria/radiation effects , Carbon Dioxide , Dental Scaling/instrumentation , Fibroblasts/physiology , Humans , L Cells , Low-Level Light Therapy , Mice , Microscopy, Electron, Scanning , Periodontal Diseases/therapy , Random Allocation , Surface Properties/radiation effects , Tooth Root/microbiology , Ultrasonic TherapyABSTRACT
BACKGROUND: Many studies have observed damages to root surfaces treated by CO2 laser in continuous mode with a focused beam. The morphologic changes observed were always associated with temperature increase induced by high energy release. METHODS: The purpose of this study was to analyze by scanning electron microscopy (SEM) the effects of CO2 laser in 2 different modes on root surfaces. Study samples consisted of 30 extracted single-rooted periodontally compromised human teeth. Root specimens were randomly assigned to 3 groups: group A (12) treated with CO2 laser in continuous mode with a focused beam of 0.8 mm; group B (12) treated with CO2 laser in pulsed mode with defocused beam of 4 mm; and group C (6), untreated controls. RESULTS: Group A (continuous mode) showed severe damages to dentin surfaces such as craters and fissures. Group B (defocused mode) did not result in any damages to the root surfaces, showing flat and smooth surfaces with apparent fusion of the smear layer and dentinal tubules almost completely sealed. The untreated control group was characterized by irregular and amorphous surfaces with several shallow depressions. CONCLUSIONS: Although both laser modes resulted in changes to the treated root surface specimens, the changes resulting in a smooth surface from use of defocused pulsed beam may present an advantage in periodontal treatment.
Subject(s)
Lasers , Tooth Root/radiation effects , Carbon Dioxide , Dentin/radiation effects , Dentin/ultrastructure , Humans , Lasers/classification , Microscopy, Electron, Scanning , Smear Layer , Tooth Root/ultrastructureSubject(s)
Biotechnology/legislation & jurisprudence , DNA , Genes , Patents as Topic/legislation & jurisprudence , Animals , Bioethics , HumansABSTRACT
Following the 1980 US Supreme Court decision to allow a patent on a living organism, debate has continued on the moral issues involved in biotechnology patents of many kinds and remains a contentious issue for those opposed to the use of biotechnology in industry and agriculture. Attitudes to patenting in the life sciences, including those of the research scientists themselves, are analysed. The relevance of morality to patent law is discussed here in an international context with particular reference to the law of the European Patent Convention administered by the European Patent Office (EPO). The EPO has been the principal forum for opposition to such patents and the few cases under dispute in the EPO are reviewed, including patents for the onco-mouse, human relaxin gene, and the PGS herbicidally resistant plant (gmo). Morality provisions in the European Parliament and Council Directive 98/44/EC are also summarised.
Subject(s)
Ethics , Patents as Topic , Animals , Attitude , Biological Science Disciplines , Biotechnology/legislation & jurisprudence , Europe , Humans , Mice , Patents as Topic/legislation & jurisprudenceABSTRACT
BACKGROUND AND OBJECTIVE: Class III periodontal furcations still represent a challenge for the periodontist. Aim of this study was to test the effect of CO2 laser on the treatment of class III furcation defects. STUDY DESIGN/MATERIALS AND METHOD: Class III furcation defects 3 mm deep were surgically induced on mandibular premolars on six male Beagle dogs, for a total of 36 defects. After 6-8 weeks of plaque accumulation, the mean depth was 6.8 mm. Quadrants were randomly assigned to a) CO2 laser therapy (laser), b) Guided Tissue Regeneration (GTR) procedure using Gore-Tex Membranes, (Gore Tex, Flagstaff, Arizona, USA) and c) Scaling and Root planing (Sc/Rp). CO2 laser beam (El.En, Florence, Italy) was applied to the root surfaces in defocused pulsed mode at 2W, 1 Hz and a duty cycle of 6%, and on periodontal soft tissues at 13W, 40 Hz, and a duty cycle of 40%. Control quadrants received either GTR procedure or Sc/Rp. Mechanical oral hygiene was provided. At 6 months the animals were sacrificed. RESULTS: The laser group showed new attachment formation averaging 1.9 mm (sd +/- 0.5), whereas GTR and Sc/Rp showed 0.2 mm (sd +/- 0.4) and 0.2 mm (sd +/- 0.5) respectively, being the differences statistically significant between the laser group and both GTR and Sc/Rp groups (p < 0.005). CONCLUSION: CO2 laser treatment of class III furcation induced formation of new periodontal ligament, cementum and bone.
Subject(s)
Furcation Defects/therapy , Guided Tissue Regeneration, Periodontal/methods , Laser Therapy , Wound Healing/physiology , Alveolar Bone Loss/therapy , Analysis of Variance , Animals , Bone Regeneration , Dental Cementum/physiology , Dogs , Furcation Defects/pathology , Male , Membranes, Artificial , Periodontal Ligament/physiology , Polytetrafluoroethylene , Surgical FlapsABSTRACT
The purpose of this study was to characterize the topographical distribution and organization of subgingival plaque in periodontally diseased teeth. 26 extracted teeth were fixed and processed for undecalcified histological evaluation. The sections were cut perpendicular to the long axis of the tooth and analyzed by phase-contrast microscopy. The coronal portion of the analyzed roots showed a dense accumulation of filamentous forms, fusiform rods, coccoid forms and loosely aggregated spirochetes. The middle and apical portions showed a non-uniform distribution of the microflora, with microorganisms representing all the known morphotypes. Furthermore, plaque was detected below undisturbed periodontal fibers, indicating that plaque not only forms apically, but also in a lateral direction, penetrating and colonizing below areas where periodontal fibers are inserted into the root surface.
Subject(s)
Dental Plaque/microbiology , Dental Plaque/pathology , Periodontal Pocket/microbiology , Tooth Root/microbiology , Adult , Bacteria/isolation & purification , Dental Cementum/microbiology , Female , Humans , Male , Middle Aged , Periodontal Ligament/microbiologySubject(s)
Biotechnology/legislation & jurisprudence , Patents as Topic , Ethics , Europe , Genes , Microbiology , Plants/genetics , ProteinsABSTRACT
This paper reviews types of preparation margins and the placement of the restoration's margins in relation to the gingival margin in prosthetic reconstruction of periodontally involved teeth. The "emergence margin," a new type of preparation margin, is presented through three case reports. The requirements for successful use of the emergence margin are discussed.
Subject(s)
Crowns , Dental Prosthesis Design , Periodontal Diseases/therapy , Dental Cavity Preparation/methods , Denture, Partial, Fixed , HumansSubject(s)
Biotechnology , Ethics , Patents as Topic/legislation & jurisprudence , Animals , Animals, Genetically Modified , European Union , Genome, Human , Human Body , Humans , Internationality , Morals , Public Opinion , ResearchABSTRACT
A method is presented for histological examination of undecalcified ground sections of tooth roots affected with periodontal disease. The roots were placed in Karnovsky's fixative overnight, postfixed in 2% buffered osmic acid, and dehydrated in an ascending series of ethanol. The specimens were then infiltrated with propylene-oxide and Epon-Araldite resin, embedded in Epon-Araldite, and sections were prepared using a cutting and grinding system. The resulting ground sections were 8-12 microns thick. The sections were allowed to air dry at room temperature. When thoroughly dried, a coverglass was applied using resinous mounting medium DPX. The specimens were examined by phase-contrast microscopy. The method is useful for simultaneous examination of mineralized dental tissue and bacterial morphotypes covering the root surface of teeth involved with periodontal disease.