Advances in cellular and molecular biology underpin most current therapeutic advances in medicine. Such advances for neurological and neurodegenerative diseases are hindered by the lack of similar specimens. It is becoming increasingly evident that greater access to human brain tissue is necessary to understand both the cellular biology of these diseases and their variation. Research in these areas is vital to the development of viable therapeutic options for these currently untreatable diseases. The development and coordination of human brain specimen collection through brain banks is evolving. This perspective article from the Sydney Brain Bank reviews data concerning the best ways to collect and store material for different research purposes.
Aging ; pathology ; physiology ; Biomedical Research ; methods ; Brain ; pathology ; physiopathology ; Humans ; Neurodegenerative Diseases ; pathology ; physiopathology ; therapy ; Tissue Banks ; Tissue Preservation

Adolescent and young adult (AYA) patients are generally defined as being from 15 to 39 years old. For preservation of fertility in AYA cancer patients, the best-known guideline in this field was released by the American Society of Clinical Oncology (ASCO) in 2006. However, the ASCO guideline is not necessarily applicable to Japanese cancer patients. The Japan Society for Fertility Preservation (JSFP) was formed in 2012, and a system and guideline for fertility preservation in Japanese AYA cancer patients plus children was released in July 2017. According to this guideline, patients should receive psychological and social support from health care providers such as doctors, nurses, psychologists, pharmacists, and social workers. In 2013, the American Society for Reproductive Medicine stated that freezing oocytes is a method that has passed beyond the research stage. However, freezing ovarian tissue is still a research procedure. While slow freezing of ovarian tissue is generally performed, rapid freezing (vitrification) is more popular in Japan. We have developed a new closed technique for ovarian tissue cryopreservation. It has been suggested that optical coherence tomography might be applied clinically to measure the true ovarian reserve and localize follicles in patients undergoing ovarian tissue transplantation. Combining gonadotropin-releasing hormone agonist therapy with anticancer agents might be useful for ovarian protection and it is expected that discussion of such combined treatment will continue in the future. This article outlines practical methods of fertility preservation using assisted reproductive techniques for AYA cancer patients in Japan.
Adolescent* ; Antineoplastic Agents ; Asian Continental Ancestry Group ; Child ; Cryopreservation ; Fertility Preservation* ; Fertility* ; Freezing ; Gonadotropin-Releasing Hormone ; Health Personnel ; Humans ; Japan* ; Medical Oncology ; Methods ; Oocytes ; Ovarian Reserve ; Pharmacists ; Psychology ; Reproductive Medicine ; Reproductive Techniques, Assisted ; Social Work ; Social Workers ; Tissue Transplantation ; Tomography, Optical Coherence ; Transplants ; Vitrification ; Young Adult*

OBJECTIVE: The favored method of preserving fertility in young female cancer survivors is cryopreservation and autotransplantation of ovarian tissue. Reducing hypoxia until angiogenesis takes place is essential for the survival of transplanted ovarian tissue. The aim of this study was to investigate the role of angiopoietin-1 (Angpt-1), angiopoietin-2 (Angpt-2), and vascular endothelial growth factor (VEGF) in ovarian tissue grafts that were cryopreserved using two methods. METHODS: Ovarian tissues harvested from ICR mice were divided into three groups: group I (control), no cryopreservation; group II, vitrification in EFS (ethylene-glycol, ficoll, and sucrose solution)-40; and group III, slow freezing in dimethyl sulfoxide. We extracted mRNA for VEGF, Angpt-1, and Angpt-2 from ovarian tissue 1 week following cryopreservation and again 2 weeks after autotransplantation. We used reverse transcriptase-polymerase chain reaction to quantify the levels of VEGF, Angpt-1, and Angpt-2 in the tissue. RESULTS: Angpt-1 and Angpt-2 expression decreased after cryopreservation in groups II and III. After autotransplantation, Angpt-1 and Angpt-2 expression in ovarian tissue showed different trends. Angpt-1 expression in groups II and III was lower than in group I, but Angpt-2 in groups II and III showed no significant difference from group I. The vitrified ovarian tissues had higher expression of VEGF and Angpt-2 than the slowfrozen ovarian tissues, but the difference was not statistically significant. CONCLUSION: Our results indicate that Angpt-2 may play an important role in ovarian tissue transplantation after cryopreservation although further studies are needed to understand its exact function.
Angiopoietin-1* ; Angiopoietin-2 ; Animals ; Anoxia ; Autografts ; Cryopreservation* ; Dimethyl Sulfoxide ; Female ; Fertility ; Fertility Preservation ; Ficoll ; Freezing ; Humans ; Methods* ; Mice ; Mice, Inbred ICR ; Ovary ; Reverse Transcriptase Polymerase Chain Reaction ; RNA, Messenger ; Sucrose ; Survivors ; Tissue Transplantation ; Transplantation, Autologous ; Transplants* ; Vascular Endothelial Growth Factor A* ; Vascular Endothelial Growth Factors ; Vitrification

Background: Vascular resistance and flow rate during hypothermic machine perfusion (HMP) of kidneys is correlated with graft function. We aimed to determine the effects of increasing HMP pressure versus maintaining the initial pressure on kidney transplantation outcomes. Methods: We retrospectively reviewed the data of 76 primary transplantation patients who received HMP-preserved kidneys from 48 donors after cardiac death between September 1, 2013, and August 31, 2015. HMP pressure was increased from 30 to 40 mmHg (1 mmHg = 0.133 kPa) in kidneys with poor flow and/or vascular resistance (increased pressure [IP] group; 36 patients); otherwise, the initial pressure was maintained (constant pressure group; 40 patients). Finally, the clinical characteristics and transplantation outcomes in both groups were assessed. Results: Delayed graft function (DGF) incidence, 1-year allograft, patient survival, kidney function recovery time, and serum creatinine level on day 30 were similar in both groups, with improved flow and resistance in the IP group. Among patients with DGF, kidney function recovery time and DGF duration were ameliorated in the IP group. Multivariate logistic regression analysis revealed that donor hypertension (odds ratio [OR]: 1.43, 95% confidence interval [CI]: 1.02-2.06, P = 0.035), donor terminal serum creatinine (OR: 1.27, 95% CI: 1.06-1.62, P = 0.023), warm ischemic time (OR: 3.45, 95% CI: 1.97-6.37, P = 0.002), and terminal resistance (OR: 3.12, 95% CI: 1.76-6.09, P = 0.012) were independent predictors of DGF. Cox proportional hazards analysis showed that terminal resistance (hazard ratio: 2.06, 95% CI: 1.32-5.16, P = 0.032) significantly affected graft survival. Conclusion Increased HMP pressure improves graft perfusion but does not affect DGF incidence or 1-year graft survival.
Adult ; Allografts ; Delayed Graft Function ; Female ; Humans ; Hypertension ; physiopathology ; Kidney Function Tests ; Kidney Transplantation ; methods ; Logistic Models ; Male ; Middle Aged ; Organ Preservation ; Retrospective Studies ; Tissue Donors

OBJECTIVETo investigate the protective effect of high-pressure carbon monoxide for preservation of ex vivo rabbit heart graft in comparison with the conventional HTK cardioplegic solution preservation.

METHODSHeart grafts isolated from 85 New Zealand rabbits were randomly divided into Naive group (n=5), HTK group (n=40) and CO group (n=40). The grafts underwent no preservation procedures in Naive group, preserved at 4 degrees celsius; in HTK cardioplegic solution in HTK group, and preserved at 4 degrees celsius; in a high-pressure tank (PO2: PCO=3200 hPa: 800 hPa) in CO group with Krebs-Henseleit solution perfusion but without cardioplegic solution. After preservation for 2, 4, 6, 8, 10, 14, 18, and 24 h, 5 grafts from the two preservation groups were perfused for 30 min with a modified Langendorff apparatus and examined for left ventricular systolic pressure (LVSP), left ventricular diastolic pressure (LVDP), arrhythmia score (AS), myocardial ultrestructure, and cardiac enzyme profiles.

RESULTSAfter preservation for 6 to 24 h, the cardiac enzyme profiles and systolic and diastolic functions were significantly better in CO group than in HTK group, but these differences were not obvious between the two groups after graft preservation for 2 to 4 h. Significant changes in the myocardial ultrastructures occurred in the isolated hearts after a 24-h preservation in both CO and HTK groups, but the myocardial damages were milder in CO group.

CONCLUSIONPreservation using high-pressure carbon monoxide can better protect isolated rabbit heart graft than the conventional HTK preservation approach especially for prolonged graft preservation.

Animals ; Carbon Monoxide ; Cardioplegic Solutions ; Glucose ; Heart ; physiology ; Heart Transplantation ; Myocardium ; ultrastructure ; Rabbits ; Tissue Preservation ; methods ; Tromethamine

Donation after brain death followed by circulatory death (DBCD) is a unique practice in China. The aim of this study was to define the pathologic characteristics of DBCD liver allografts in a porcine model. Fifteen male pigs (25-30 kg) were allocated randomly into donation after brain death (DBD), donation after circulatory death (DCD) and DBCD groups. Brain death was induced by augmenting intracranial pressure. Circulatory death was induced by withdrawal of life support in DBCD group and by venous injection of 40 mL 10% potassium chloride in DCD group. The donor livers were perfused in situ and kept in cold storage for 4 h. Liver tissue and common bile duct samples were collected for hematoxylin and eosin staining, TUNEL testing and electron microscopic examination. Spot necrosis was found in hepatic parenchyma of DBD and DBCD groups, while a large area of necrosis was shown in DCD group. The apoptosis rate of hepatocytes in DBD [(0.56±0.30)%] and DBCD [(0.50 ± 0.11)%] groups was much lower than that in DCD group [(3.78±0.33)%] (P<0.05). And there was no significant difference between DBD group and DBCD group (P>0.05)). The structures of bile duct were intact in both DBD and DBCD groups, while the biliary epithelium was totally damaged in DCD group. Under electron microscope, the DBD hepatocytes were characterized by intact cell membrane, well-organized endoplasmic reticulum, mild mitochondria edema and abundant glycogens. Broken cell membrane, mild inflammatory cell infiltration and sinusoidal epithelium edema, as well as reduced glycogen volume, were found in the DBCD hepatocytes. The DCD hepatocytes had more profound cell organelle injury and much less glycogen storage. In conclusion, the preservation injury of DBCD liver allografts is much less severe than that of un-controlled DCD, but more severe than that of DBD liver allografts under electron microscope, which might reflect post-transplant liver function to some extent.
Allografts ; Animals ; Apoptosis ; Brain Death ; China ; Death ; Heart Arrest ; Hepatocytes ; pathology ; ultrastructure ; Humans ; In Situ Nick-End Labeling ; Liver ; pathology ; ultrastructure ; Liver Transplantation ; methods ; Microscopy, Electron ; Organ Preservation ; methods ; Swine ; Tissue Donors ; Tissue and Organ Procurement ; methods

Adolescent ; Age Factors ; Child ; Dental Pulp ; diagnostic imaging ; Dentition, Permanent ; Humans ; Organ Preservation Solutions ; Periodontal Ligament ; diagnostic imaging ; Radiography ; Time Factors ; Tissue Preservation ; Tooth Avulsion ; surgery ; Tooth Replantation ; methods

BACKGROUNDDonor-pretreatment with ulinastatin may influence the liver graft during cold preservation. The aim of this research was to determine whether pretreatment of donor liver with Ulinastatin can attenuate cold preservation injury, and to explore the mechanism by which Ulinastatin affects the donor liver graft.

METHODSOne hundred and forty-four Wistar rats were divided into the Ulinastatin treatment group (T group) pretreated with Ulinastatin 50 000 U/kg and control group (C group) treated with 0.9% normal saline via peritoneal injection prior to the anesthetization. After the abdominal cavity was opened and perfused with cold Ringer's lactate solution, the liver was harvested. The harvested liver was preserved in cold Ringer's lactate solution for 0, 2, 6, 24 hours, at which time the liver tissue was sampled for determination of dry weight and wet weight, Na(+)-K(+)-ATPase and Ca(2+)-ATPase activity, lactic acid dehydrogenase (LDH) activity, lactic acid and malondialdehyde levels. Light microscopy and electron microscopy were used to observe liver morphology. The liver cold-preservation solution was taken for measurement of aspartate aminotransferase (AST) and alanine transaminase (ALT) levels. Correlation between ATPase activity and lactic acid level was analyzed by SPSS 13.0 for Windows.

RESULTSThe morphology in the T group had improved cell boundaries vs. the C group at each time point. Dry weight to wet weight in the T group was lower than in the C group at 6 hours (P < 0.05), but the difference was not significant at 24 hours. ALT levels in the T group were lower than that in the C group at 6 hours (P < 0.05) and 24 hours (P < 0.01). AST levels in the T group were lower than those in the C group at 2 hours (P < 0.05), 6 hours (P < 0.01) and 24 hours (P < 0.01). Na(+)-K(+)-ATPase activity in the T group was higher than in the C group and the mean difference between two groups was significant at 0 hour (P < 0.05) and 2 hours (P < 0.05). Ca(2+)-ATPase activity in the T group was higher than in the C group with the mean difference between two groups significant at 2 hours (P < 0.05). The T group had increased lactic acid levels at 0 hour (P < 0.01) and 2 hours (P < 0.05) compared with the C group, but there was no influence on the LDH activity at the same time. There were no obvious differences in the levels of malondialdehyde between the two groups at any time point. A linear correlation between Na(+)-K(+)-ATPase activity and lactic acid levels (r = 0.295, P < 0.05) was found.

CONCLUSIONSDonor-pretreatment with ulinastatin may protect the cells in a liver graft from ischemia injury during cold preservation; the mechanism may be due to its promotion for cell glycolysis and its preservation of ATPase activity.

Animals ; Calcium-Transporting ATPases ; metabolism ; Cryopreservation ; methods ; Glycoproteins ; pharmacology ; Graft Survival ; drug effects ; L-Lactate Dehydrogenase ; metabolism ; Liver ; drug effects ; metabolism ; Liver Transplantation ; methods ; Malondialdehyde ; metabolism ; Organ Preservation ; methods ; Rats ; Rats, Wistar ; Sodium-Potassium-Exchanging ATPase ; metabolism ; Tissue Donors

OBJECTIVE: To investigate the stability of estazolam in biological samples preserved in formaldehyde solution. METHODS: The dog was given intragastric administration of estazolam with a dose of 37.6 mg/kg and killed 2 h later. Heart, liver, kidney and brain of the dog were cut up into 1 g and preserved in 4% formaldehyde solution respectively. The content of estazolam in biological samples and formaldehyde solution were analyzed by HPLC at different times. RESULTS: The content of estazolam in heart, liver, kidney and brain or in formaldehyde solution reduced gradually followed with the extention of preservation time. At the 63rd day, estazolam content in four tissues were 0.8%, 1.7%, 1.0% and 2.2% of the original content respectively. CONCLUSION Estazolam in tissues can diffuse into formaldehyde solution and decomposed quickly, so biological samples contained estazolam should not be preserved in formaldehyde solution.
Administration, Oral ; Animals ; Brain Chemistry ; Chromatography, High Pressure Liquid ; Dogs ; Drug Stability ; Estazolam/poisoning* ; Forensic Toxicology/methods* ; Formaldehyde ; Hypnotics and Sedatives/poisoning* ; Kidney/chemistry* ; Liver/chemistry* ; Male ; Solutions ; Time Factors ; Tissue Preservation/methods*

By observations of the features of ultrastructure changes in the tissue engineered artificial tendon of vitreous cryopreservation, we investigated the repairing effect of tendon after an in-vivo implantation and hence we provided an important theoretical and experimental basis for the vitreous cryopreservation and application of tissue engineered artificial tendon. After vitreous cryopreservation, the implantation materials of tissue engineered artificial tendon dynamically constructed in vitro were implanted in rats for reparation of the tendon defect. A scanning electron microscope was used. At the 2nd week, the materials presented a reticular formation and there were juvenile tendon cells among materials. At the 6th week, materials were already degraded and absorbed, and then were substituted by neonatal tendon cells and collagen fibers. At the 8th week, dense tendon tissues containing uniform tendon cells and collagen fibers were found already formed; the density of collagen fibers significantly increased with time. Using a transmission electron microscope at the 2nd week, we found active proliferation of tendon cells; most of them were immature cells with a complete nuclear membrane, clear nucleolus and little collagen fibers. At the 6th week, tendon cells were more mature with a little-sized, deep-stained nucleolus surrounded by plenty of collagen fibers with complete fiber structure and clear cross striation. There was no significant difference between the two groups. Using an electron microscope, we found a very good agreement in observation of the tissue engineered artificial tendon after the in-vivo implantation in two groups. Neonatal tendon cells and collagen fiber tissues grew well and are in a similar form and order when compared versus normal tendon tissues. This proved that vitreous cryopreservation has no significant influence on the function of tendon cells. The neonatal tissue-engineered tendon exerts good function of growth and repair.
Achilles Tendon ; injuries ; surgery ; ultrastructure ; Animals ; Cryopreservation ; Female ; Male ; Random Allocation ; Rats ; Rats, Sprague-Dawley ; Tendons ; cytology ; transplantation ; Tissue Engineering ; methods ; Tissue Preservation ; methods ; Tissue Scaffolds ; Vitrification