Preservation of Quercus Robur and Quercus Petraea Genetic Resources through In Vitro Culture

In this paper, the effect of various factors (clone, initial explant, sterilization method, and culture medium) on the in vitro multiplication of pedunculate and sessile oak species was tested. No influence of clone was found and a 44-83% survival rate was found for different types of explants, the best result being that of using mature acorns germinated in vitro. The most efficient sterilization method was: mercuric chloride 0.2 mg/l, ascorbic acid 1 mg/l, for 30 min., with or without antibiotic. The best results were obtained with GD medium complemented with 0.5 mg/l BAP and 0.1 mg/l IBA, which allowed obtaining of a high rooting percentage. The regenerated plants were transferred in vivo, in a climate controlled greenhouse.

Flower endophytic fungi of Geodorum densiflorum endangered orchid

Geodorum densiflorum is an ornamental and medicinally important orchid. The medicinal metabolites are produced by endophytic fungi associated with orchid tissue, particularly flowers. However, there is no report of the endophytic fungi from the G. densiflorum flowers. This research aimed to study the endophytic fungi from different parts of G. densiflorum flower. Fungal isolation was carried out from sepal, petal, labium, stigma, and anther using surface sterilization method. The fungi were identified by combining morphological and molecular characteristics of ITS rDNA region. The results showed that each flower organ had different species of endophytic fungi. A total of seven species of endophytic fungi were obtained; four species were successfully identified by molecular identification and three species based on morphology. The four species, namely Hypomontagnella barbarensis, Aspergillus oryzae, Curvularia pseudobranchyspora, and Nigrospora chinensis, while the three species, namely Gonatobotrys sp., Humicola sp., Aspergillus section Nigri. The labium inhabited by Curvularia pseudobranchyspora, Nigrospora chinensis, Aspergillus section Nigri. Three species isolated from petals, namely Hypomontagnella barbarensis, Gonatobotrys sp., and Aspergillus oryzae. The sepal is inhabited by Humicola sp. There were no endophytic fungi in stigma and anther. This indicates that each flower part is a unique habitat of endophytic fungi.

In Vitro Evaluation of Acellular Collagen Matrices Derived from Porcine Pericardium: Influence of the Sterilization Method on Its Biological Properties

The aim of this study were characterize acellular collagen matrices derived from porcine pericardium (PP) and to evaluate their properties after sterilization by ethylene oxide and gamma ray. PP matrices were subjected to alkaline hydrolysis (AH), and samples were characterized for biological stability, membrane thickness measurements, differential scanning calorimetry (DSC) and scanning electron microscopy (SEM). Subsequently, the matrices were frozen, lyophilized and sterilized by ethylene oxide or gamma radiation. For in vitro assays, CHO-K1 cell culture was used and evaluated for cytotoxicity, clonogenic survival assay, genotoxicity and mutagenicity. Analysis of variance (ANOVA) was used, followed by Dunnett’s post-test, with a significance level of 5%. After AH, there was no significant change in matrix thickness. The relative biodegradability of the material after implantation was observed. Morphology and dimensions had small changes after AH. As for cell viability, none of the tested matrices showed a statistically significant difference (p > 0.05; Dunnett) regardless of the sterilization method. Furthermore, it was found that PP matrices did not interfere with the proliferation capacity of CHO-K1 cells (p > 0.05; Dunnett). As for genotoxicity, when sterilized with ethylene oxide (NP, P12 and P24), it showed genotoxic potential, but it was not genotoxic when sterilized by gamma radiation. No mutagenic effects were observed in either group. PP-derived collagen matrices hydrolyzed at different times were not cytotoxic. It is concluded that the best method of sterilization is through gamma radiation, since no significant changes were observed in the properties of the PP matrices.

Effect of fallopian tube ligation on tubal patency

Among the methods of surgical sterilization of women, ligation of the fallopian tubes is one of the oldest. First used by Lungren in 1880 in a woman with a narrow pelvis, this method, due to its lightness, speed and absence of significant trauma, attracted the attention of gynecologists and quickly found a wide range of applications. Soon, however, reports began to appear in the literature about the unreliability of this sterilization method (Fritsch, Arendt, Nrnberger, Pisemsky, etc.).

Effect of different sterilization methods on sensory quality and volatile flavor of flavor crab meat sauce

Flavor crab meat sauce (FCMS) is a new type of aquatic condiment that is not only rich in nutrition but also unique in terms of flavor. However, very little is known about how sterilization methods affect the sensory quality and volatile flavor of FCMS. In the present study, canned FCMS was subjected to the following sterilization methods: pasteurization (PS), microwave sterilization (MS), ultrasonic sterilization (US), and high temperature sterilization (HTS). Each sterilization method was evaluated on the basis of texture, color, sensory score, volatile flavor, and total viable counts in FCMS observed after sterilization. Results demonstrated that the total viable count decreased to 28, 26, 58, and 18 CFU/g respectively after PS, MS, US, and HTS treatments; no coliform group was detected in any of these samples. PS and MS had no significant effect on the texture of FCMS (P > 0.05), but US and HTS reduced hardness and viscosity of FCMS. MS and HTS significantly reduced the L*, a*, and b* values of FCMS (P < 0.05). The original brightness and red value of FCMS remained the same after PS and US. MS and HTS reduced the sensory score of FCMS to a great extent, while PS and US maintained the original sensory score of FCMS. Assessment of volatile flavor profile of FCMS post different sterilization treatments revealed that MS and HTS reduced the total ester content, while US reduced the total amount of alcohols in FCMS. However, PS not only maintained the original total amount of esters in FCMS, but also increased the content of alcohols, aldehydes, and ketones. Therefore, PS could be selected as a feasible sterilization method for FCMS among the four different sterilization methods.

Different sterilization and disinfection methods used for human tendons – a systematic review using mechanical properties to evaluate tendon allografts

Background It is important to know the biomechanical properties of an allograft. This is because when looking to do a transplant of a tendon, the tendon must have very similar biomechanical properties to the original tendon. To use tendon allografts, it is critical to properly sterilize the tendon before implantation. In past decades, several sterilization procedures have been used. This study aimed to systematically evaluate the existing literature to compare the values of failure load/ultimate strength and Young’s modulus of elasticity of different sterilization methods on commonly used tendon allografts. Five major scientific literature databases (Web of Science, Science Direct, Scopus, PLOS ONE, Hindawi) and additional sources were used. Results Studies used had to show a particular sterilization method. Studies were identified to meet the following inclusion criteria: is a controlled laboratory study, gamma irradiation (dose reported), and other sterilization methods. Search for publications dated between 1991 and March 31st, 2020. The database search and additional sources resulted in 284 records. Two hundred thirty records eliminated during the screening for various reasons. The number of articles used in the final synthesis was 54. Conclusions Identified sterilization methods (gamma irradiation, ethylene oxid, supercritical carbon dioxide (SCCO2), BioCleanse, Electron Beam) are offered as a catalog of potential methods. As a result of the broadness of the present research, it provides an overview of sterilization methods and their effect on the mechanical properties (failure load and Young’s modulus of elasticity) of tendons. It does not stand for the state-of-the-art of any single process. Based on a systematic literature review, we recommend freezing and gamma irradiation or electron beam at 14.8–28.5 kGy. These methods are effective at keeping or improving the mechanical properties, while fully sterilizing the inside and the outside of the tendon. Other sterilization method (ethylene oxide, supercritical carbon dioxide (SCCO2), BioCleanse) deteriorated the mechanical properties. These methods are not recommended.

Sterilisasi dan Induksi Daun Muda Durian (Durio zibethinus) Dalam Medium MS Dengan Penambahan Kinetin dan IAA Secara In Vitro

A research to study the sterilization method and application of Kinetin and IAA to induce the Durian young leaf (Durio zibethinus) in MS medium was conducted in Balai Benih Induk Hortikultura in Salaman Magelang district of Central Java started on September until December 2003. The Laboratory experiment was arranged in two phases, which were the optimation phase of sterilization and induction phase. At the first phase, the sterilization method used was the modification of Mulya (2001) method. The modification use of sterilant, vitamin C antioxidant, Alcohol 70 %, Benlate, Agrept, Tween-20 and Betadine were done to obtain effectiveness of the sterilization. Explants planted then in MS medium for two weeks. Contamination time, percentage of contamination and viabilitas (percentage of living explants) were observed then. At the second phase, the treatments were arranged in a 3 x 3 factorial completely randomized design (CRD) to observed the influence of Kinetin and IAA combination. The concentration of Kinetin observed were 2, 4, and 6 mg/I, where as the IAA concentration were 0.5, 1.0, and 1.5 mg/I. All treatments were repeated three times, with three samples on each replication. The percentage of browning explants, percentage of contaminated explants, site of contamination and percentage of explants live were observed at the end of incubation. The results showed that sterilization of Durian young leaves explants with 1 g/l deterjent for 15 minutes then by 2 g/l Benlate and Agrept for 10 minutes, then by 1 g/200 mg Vitamin C, then by Alcohol 70 % for 1 minute, then by 20% Clorox, then by 2 drip of Tween-20 for 10 minute and then by Betadine decreased the contamination down to 50 %, and this kind of sterilization was relatively better than the other kinds. Application of growth regulators were not able to induce explants growth, but stimulated callus formation at the cutting surface though, in the application of Kinetin 4 mg/1 + IAA 0,5 mg/I, Kinetin 4 mg/1 + IAA 1,5 mg/1, Kinetin 6 mg/I+ IAA 0,5 mg/1 and Kinetin 6 mg/l+IAA 1,0 mg/I.

Effect of sterilization on 3-point dynamic response to in vitro bending of an Mg implant

Background The aim of the study is to characterize a biomedical magnesium alloy and highlighting the loss of mechanical integrity due to the sterilization method. Ideally, when using these alloys is to delay the onset of degradation so that the implant can support body loads and avoid toxicological effects due to the release of metal ions into the body. Methods Standardized procedures according to ASTM F-1264 and ISO-10993-5 were used, respecting detailed methodological controls to ensure accuracy and reproducibility of the results, this testing methodology is carried out in accordance with the monographs of the Pharmacopoeia for the approval of medical devices and obtaining a health registration. An intramedullary implant (IIM) manufactured in magnesium (Mg) WE43 can support loads of the body in the initial period of bone consolidation without compromising the integrity of the fractured area. A system with these characteristics would improve morbidity and health costs by avoiding secondary surgical interventions. Results As a property, the fatigue resistance of Mg in aggressive environments such as the body environment undergoes progressive degradation, however, the autoclave sterilization method drastically affects fatigue resistance, as demonstrated in tests carried out under in vitro conditions. Coupled with this phenomenon, the relatively poor biocompatibility of Mg WE43 alloys has limited applications where they can be used due to low acceptance rates from agencies such as the FDA. However, Mg alloy with elements such as yttrium and rare earth elements (REEs) have been shown to delay biodegradation depending on the method of sterilization and the physiological solution used. With different sterilization techniques, it may be possible to keep toxicological effects to a minimum while still ensuring a balance between the integrity of fractured bone and implant degradation time. Therefore, the evaluation of fatigue resistance of WE43 specimens sterilized and tested in immersion conditions (enriched Hank’s solution) and according to ASTM F-1264, along with the morphological, crystallinity, and biocompatibility characterization of the WE43 alloy allows for a comprehensive evaluation of the mechanical and biological properties of WE43. Conclusions These results will support decision-making to generate a change in the current perspective of biomaterials utilized in medical devices (MDs), to be considered by manufacturers and health regulatory agencies. An implant manufactured in WE43 alloy can be used as an intramedullary implant, considering keeping elements such as yttrium-REEs below as specified in its designation and with the help of a coating that allows increasing the life of the implant in vivo.

Effect of sterilization on 3-point dynamic response to in vitro bending of an Mg implant.

Background: The aim of the study is to characterize a biomedical magnesium alloy and highlighting the loss of mechanical integrity due to the sterilization method. Ideally, when using these alloys is to delay the onset of degradation so that the implant can support body loads and avoid toxicological effects due to the release of metal ions into the body. Methods: Standardized procedures according to ASTM F-1264 and ISO-10993-5 were used, respecting detailed methodological controls to ensure accuracy and reproducibility of the results, this testing methodology is carried out in accordance with the monographs of the Pharmacopoeia for the approval of medical devices and obtaining a health registration. An intramedullary implant (IIM) manufactured in magnesium (Mg) WE43 can support loads of the body in the initial period of bone consolidation without compromising the integrity of the fractured area. A system with these characteristics would improve morbidity and health costs by avoiding secondary surgical interventions. Results: As a property, the fatigue resistance of Mg in aggressive environments such as the body environment undergoes progressive degradation, however, the autoclave sterilization method drastically affects fatigue resistance, as demonstrated in tests carried out under in vitro conditions. Coupled with this phenomenon, the relatively poor biocompatibility of Mg WE43 alloys has limited applications where they can be used due to low acceptance rates from agencies such as the FDA. However, Mg alloy with elements such as yttrium and rare earth elements (REEs) have been shown to delay biodegradation depending on the method of sterilization and the physiological solution used. With different sterilization techniques, it may be possible to keep toxicological effects to a minimum while still ensuring a balance between the integrity of fractured bone and implant degradation time. Therefore, the evaluation of fatigue resistance of WE43 specimens sterilized and tested in immersion conditions (enriched Hank's solution) and according to ASTM F-1264, along with the morphological, crystallinity, and biocompatibility characterization of the WE43 alloy allows for a comprehensive evaluation of the mechanical and biological properties of WE43. Conclusions: These results will support decision-making to generate a change in the current perspective of biomaterials utilized in medical devices (MDs), to be considered by manufacturers and health regulatory agencies. An implant manufactured in WE43 alloy can be used as an intramedullary implant, considering keeping elements such as yttrium-REEs below as specified in its designation and with the help of a coating that allows increasing the life of the implant in vivo.Trial registration: N/A