Permeability of the 17-day fetal rat pancreas to glycerol and dimethylsulfoxide

Experimentally induced diabetes in rats can be reversed by the transplantation of several fresh or frozen-thawed fetal pancreases. An important question to both the mechanistic and practical aspects of cryobiology is the role played by the permeation of protective additives during freezing, thawing, and subsequent dilution. Answers require knowledge of the kinetics of permeation of the specific additive into the cell or tissue. In this paper, we report isotopic measurements of the rate of permeation of 2 M glycerol and 1 and 2 M dimethylsulfoxide (Me₂SO) into 17-day fetal pancreases at 0 and 22 °C. In Me₂SO, equilibrium was achieved in about 10–15 min at 0 °C and in less than 10 min at 22 °C. In glycerol, equilibrium was attained in about 60 min at 22 °C; but at 0 °C permeation was only 65% complete after 180 min. In general, Me₂SO permeated 10–30 times more rapidly than glycerol at 0 °C, and glycerol permeated about 10 times more rapidly at 22 than at 0 °C.The kinetics of permeation were more characteristic of a two-compartment than a single-compartment system. In all probability, the two compartments are the intercellular space and the intracellular space. The permeability data suggest that each compartment occupies about half the total volume.     

Characterizing the ability of an ice recrystallization inhibitor to improve platelet cryopreservation

Improving aspects of platelet cryopreservation would help ease logistical challenges and potentially expand the utility of frozen platelets. Current cryopreservation procedures damage platelets, which may be caused by ice recrystallization. We hypothesized that the addition of a small molecule ice recrystallization inhibitor (IRI) to platelets prior to freezing may reduce cryopreservation-induced damage and/or improve the logistics of freezing and storage. Platelets were frozen using standard conditions of 5–6% dimethyl sulfoxide (Me₂SO) or with supplementation of an IRI, N-(2-fluorophenyl)-d-gluconamide (2FA), prior to storage at −80 °C. Alternatively, platelets were frozen with 5–6% Me₂SO at −30 °C or with 3% Me₂SO at −80 °C with or without 2FA supplementation. Supplementation of platelets with 2FA improved platelet recovery following storage under standard conditions (p = 0.0017) and with 3% Me₂SO (p = 0.0461) but not at −30 °C (p = 0.0835). 2FA supplementation was protective for GPVI expression under standard conditions (p = 0.0011) and with 3% Me₂SO (p = 0.0042). Markers of platelet activation, such as phosphatidylserine externalization and microparticle release, were increased following storage at −30 °C or with 3% Me₂SO, and 2FA showed no protective effect. Platelet function remained similar regardless of 2FA, although functionality was reduced following storage at −30 °C or with 3% Me₂SO compared to standard cryopreserved platelets. While the addition of 2FA to platelets provided a small level of protection for some quality parameters, it was unable to prevent alterations to the majority of in vitro parameters. Therefore, it is unlikely that ice recrystallization is the major cause of cryopreservation-induced damage.     

Variations in myocardial CPK and Na+-K+ ATPase following normo- and hypothermic exposure to dimethyl sulfoxide and glycerol.

Exposure of canine myocardial tissue homogenates to Me₂SO glycerol (20 to 60%) for periods up to 8 hr resulted in significant alterations in enzyme activity at 0 °, 18 °, and 37 °C. Both CPK and Na⁺-K⁺ ATPase demonstrate anomalous enhancement of activity at each temperature with glycerol. Me₂SO provides a similar enhancement of Na⁺-K⁺ ATPase activity at hypothermic temperatures up to 40%. Thereafter, nearly complete inhibition resulted. Under normothermic conditions complete Me₂SO inhibition occurred at 40 °. CPK activity diminished in a linear fashion after 4 hr at 18 ° and 37 ° but was unaffected by up to 40% Me₂SO at 0 °C. The results suggest that disruption of the CPK-Na⁺-K⁺ ATPase systems may be minimized by hypothermic perfusion at low cryoprotectant concentrations.     

Effect of dimethylsulphoxide on the functional characteristics of isolated perfused rat liver

Exposure of rat liver, perfused with 7% BSA in Krebs-Ringer bicarbonate buffer, to 1.4 m Me₂SO at 35 °C had no effect on the release of potassium from the livers, but the rate of urea synthesis fell from 0.6 to 0.1 μmol/min. Bile production also decreased and the total amount collected during perfusion was only half that produced by controls. After perfusion for 4 hr at 35 °C control livers and those exposed to Me₂SO started to release GOT into the perfusate but livers exposed to the cryoprotective compound released the enzyme at a faster rate.Exposure of livers to Me₂SO at 5 °C resulted in potassium being released at a slower rate (0.98 μmol/min) than from cooled controls (1.19 μmol/min) and urea synthesis was decreased from 0.8 to 0.2 μmol/min. Bile production also declined but, because bile flow normally ceases during hypothermia, the effect on this aspect of liver function was probably less than was found at 35 °C. Release of GOT from livers exposed to Me₂SO at 5 °C was quite different from that observed at 35 °C; the enzyme appeared in the perfusate after about 8 hr and it was present in much lower concentration than was found with appropriately cooled controls which started to release the enzyme after 6 hr.Thus, exposure of rat liver to Me₂SO at 5 °C appears to be slightly less damaging than exposure at 35 °C and it may even have a beneficial effect on some aspects of liver function in vitro.     

Cryopreservation of embryos and larvae of the edible sea urchin loxechinus albus (Molina, 1782)

The natural population of the edible red sea urchin, Loxechinus albus, is decreasing due to overfishing. The embryos and larvae of the species are highly useful for monitoring marine pollution, which makes it necessary to conserve gametes, embryos and larvae to facilitate their use in diverse areas of aquaculture and environmental quality monitoring. This need can be met by cryopreserving individuals representing the different developmental stages to provide an ongoing supply of genetic material of the species. The present study establishes a reproducible protocol for cryopreserving red sea urchin blastula and larvae. Toxicity tests were conducted in the first stage of this study using two permeable cryoprotectors, dimethyl sulfoxide (Me₂SO) and propylene glycol (PG), at three concentrations (5%, 10% and 15%). The tests were repeated in the second stage, but mixing the cryoprotectors with 0.04 M of trehalose (TRE), a non-permeable cryoprotector. Cryopreservation tests were conducted in the third stage employing different freezing rates: 2 °C/min, 3 °C/min, 3.5 °C/min, 4 °C/min and 4.5 °C/min, using the cryoprotectors that yielded the highest post-incubation survival rates.The highest post-freezing survival rates for blastula (76 ± 7%) and larvae (79 ± 7%) were obtained with Me₂SO at 10% + 0.04 M of trehalose, with freezing rates of 3 °C/min and 4.5 °C/min, respectively.     

Factors influencing myeloid stem cell (CFU-C) survival after cryopreservation of human marrow and chronic granulocytic leukemia cells

Human marrow stem cells obtained from 20 patients (9 with nonhematological malignancy, 11 with acute leukemia in remission) and peripheral blood stem cells from 27 patients with chronic granulocytic leukemia were cryopreserved in 10% dimethyl sulfoxide (Me₂SO). It was found that the optimal cooling rate for the human myeloid stem cells (CFU-C) ranged from 1 to 3 °C per minute. The myeloid stem cells (CFU-C) maintained their viability for up to one year of storage in liquid nitrogen, after an initial 20% reduction due to the freezing procedure. Myeldoid stem cells survived better when thawed and diluted at room temperature (RT) than at 4 °C. However, the viability of thawed stem cells decreased when stored at RT for more than 1 hr. The viability of stem cells cryopreserved in bags and ampoules was similar. No differences were noted in the surivial of normal human marrow stem cells and cells from patients with chronic granulocytic leukemia when cryopreserved under similar conditions.     

Cryopreservation of sperm from farmed Pacific abalone,Haliotis discus hannai

This study aimed to improve a sperm cryopreservation protocol for farmed Pacific abalone, Haliotis discus hannai. Dimethyl sulfoxide (Me₂SO), glycerol, ethylene glycol (EG), propylene glycol (PG), and methanol were chosen as cryoprotectants (CPAs). Four different equilibration time (5, 10, 30, and 60 min), and two types of equilibration temperature (4 °C and 20 °C) were selected at the present experiment. Most equilibration temperatures with each CPA showed significant differences among different equilibration time. Post-thaw sperm motility of five CPAs showed no significant difference at two equilibration temperature. Based on these results, 8% Me₂SO, 8% EG, 6% PG, 2% glycerol, and 2% methanol were chosen to determine optimal conditions for sperm cryopreservation of H. discus hannai. The highest post-thaw sperm motility (8% Me₂SO: 50.6%, 8% EG: 45.6%, 2% glycerol: 44.5%, 6% PG: 28.7%, 2% methanol: 25.4%) was achieved after exposing sperm to liquid nitrogen (LN₂) vapor for 10 min at 5 cm above the LN₂ surface and then submerging them in LN₂ for at least 2 h followed by thawing at 60 °C with seawater and recovering them at 20 °C with seawater. In this study, 8% Me₂SO and 2% glycerol were chosen to check post-thaw sperm quality to estimate percentages of plasma membrane integrity (PMI), mitochondrial potential analysis (MP), and acrosome integrity (AI) using fluorescent techniques. No significant difference in PMI, MP, and AI was found between sperm cryopreserved with 8% Me₂SO and those cryopreserved with 2% glycerol. The current study has demonstrated that 8% Me₂SO was optimal for sperm cryopreservation for H. discus hannai with 5 min of equilibration time, 5 cm of rack height and 60 °C of thawing temperature. The present research provides more effective cryopreservation methods for H. discus hannai sperm than previous studies.     

Effects of cryoprotective agents and freezing on abdominal ganglia of aplysia.

Isolated Aplysia depilans abdominal ganglia were exposed to 10 and 20% dimethylsulphoxide (Me₂SO) or glycerol at room temperature. Results indicate that Me₂SO induced an irreversible depression of extracellularly recorded ganglionic spontaneous spike generation while glycerol proved to be non-toxic. Intracellular recordings of individual nerve cell spontaneous activity during exposure to the cryoprotective agents were obtained in a few preliminary experiments. Both Me₂SO and glycerol induced a decrement in the nerve cell membrane potential. The main difference between the action of the two cryoprotectants was in the rate and the amount of depolarization, both being higher in the case of Me₂SO exposure.The Aplysia abdominal ganglia were frozen to ?20 °C and to ?196 °C. In all but one ganglia frozen to ?20 °C, including the preparations frozen in the absence of any cryoprotective agent, functional recovery was obtained after thawing. However, only the application of 20% glycerol improved the recovery of the preparations to a significant extent. In ganglia protected with 20% glycerol a full recovery of the action potential amplitude and frequency was obtained. In ganglia protected with 20% glycerol intracellular recordings of individual nerve cells demonstrated spontaneous spike activities before freezing and after thawing.No functional recovery was observed in ganglia frozen to ?196 °C in the absence of a cryoprotective agent. While in most preparations frozen with a cryoprotectant spontaneously generated spikes were recorded after thawing. However, the action potential frequency and amplitude were significantly depressed. It is concluded that further investigation is required to improve the freezing technique so that Aplysia ganglia may be preserved at low temperatures. It is suggested that intracellular exploration of the effects of cryoprotectants and freezing on identified nerve cell membrane may prove to be useful in future investigations.     

Cryopreservation of Plasmodium chabaudi I: Protection by glycerol and dimethyl sulfoxide during cooling and by glucose following thawing

Two additives, glycerol and dimethyl sulfoxide (Me₂SO), were investigated for toxic and protective effects for the intraerythrocytic stages of Plasmodium chabaudi. After incubation for 15 min, at 0 °C in Me₂SO and at 37 °C in glycerol, with various concentrations of these additives, half the blood from each treatment was cryopreserved in glass capillary tubes cooled at approximately 3600 °C min^?1 by plunging into liquid nitrogen. Warming was rapid, approximately 12000 °C min^?1, produced by agitation in a water bath at 40 °C for 1 min. The effect of dilution in phosphate-buffered saline (PBS) supplemented with various concentrations (5 to 25% $\text{v}\text{v}$) of glucose was also investigated in conjunction with the two cryoprotectants. Survival of both the frozen and the unfrozen control parasites was assayed by the mean time taken for the parasitemia in groups of five mice to reach a level of 2% following intraperitoneal injection of 10⁶ parasitized erythrocytes into each mouse. Glycerol was toxic at concentrations above 10% $\text{v}\text{v}$ and Me₂SO above approximately 15%. The use of glucose in the recovery medium resulted in a substantial improvement in the survival of frozen and unfrozen parasites previously incubated in either cryoprotectant. The amount of glucose required varied with the concentration of additive used, and optimum survival of cryopreserved parasites was obtaind with 10% $\text{v}\text{v}$ glycerol or 15% $\text{v}\text{v}$ Me₂SO and with 15% $\text{w}\text{v}$ glucose in the diluent medium.     

Preparation and properties of cloning inhibitory factor. II. Factors affecting its production and assay

Cloning Inhibition Factor (CIF), an activity present in PHA or antigen stimulated lymphocyte culture supernatants, inhibited the cloning of HeLa cells when diluted 1:9 in HeLa culture medium. CIF was not detectable at 8 hr, was maximal at 24–48 hr, and declined with longer periods of lymphocyte culture. CIF production increased with lymphocyte concentration up to 1–2 × 10⁶ lymphs/ml but plateaued at higher concentrations. At lower lymphocyte concentrations, more CIF activity was present when lymphocytes were cultured in 5% rather than 12% serum. PPD elicited similar CIF activity from either highly purified or unpurified lymphocytes. CIF activity was independent of HeLa medium serum concentration. It remained stable for 3–6 months at ?20 °C, but was inactivated by heating at 56 °C for 30 min. At a 1:9 dilution CIF was not cytocidal but produced cytopathic changes. CIF shares many properties with, and may be identical to, Proliferation Inhibitory Factor.     

Cryopreservation of some useful microalgae species for biotechnological exploitation

Culture collections of microalgae represent a biological resource for scientific research and biotechnological applications. When compared to the current methods of maintenance and sub-culturing, cryopreservation minimizes labor costs and is an effective method for maintaining a large range of species over long periods with high stability. In order to determine the best cryopreservation method for microalgae species with great biotechnological potential, three freezing protocols were employed using different cryoprotectants (dimethyl sulfoxide—Me₂SO; methanol—MeOH). Three marine microalgae species (Thalassiosira weissflogii; Nannochloropsis oculata, and Skeletonema sp.) were cooled by directly plunging into liquid nitrogen (?196°C) and with two-step controlled cooling protocols (?18°C and ?80°C pre-treatments). After storage periods ranging from 10 to 120 days, viability was determined by the ability of cells to actively grow again. Results obtained for T. weissflogii showed that this species could be preserved at ultra-low temperature (?196°C) for 10 and 30 days with 10?% Me₂SO and 5?% MeOH when employed a controlled cooling protocol (?80°C). N. oculata was successfully cryopreserved either by direct freezing or with controlled cooling protocols. N. oculata samples presented good responses when treated with 5?% Me₂SO, 10?% Me₂SO, 5?% MeOH and even without any cryoprotectant. Skeletonema sp. did not survive cryopreservation in any of the tested conditions. The results indicate the difficulty in establishing common protocols for different microalgae species, being necessary further studies for a better understanding of cell damages during freezing and thawing conditions for each species.     

Cell preservation in a programmed cooling machine: the effect of variations in supercooling

When cells are cryopreserved in programmed cooling machines, they supercool to a variable and uncontrolled extent. Experiments were carried out with three cell-types (human peripheral lymphocytes, Chinese hamster lung fibroblasts, and mouse lymphoma cells) to determine whether there was any effect of supercooling on cell survival. Samples were cooled at 1 °C min^?1 in the presence of 12% v/v dimethyl sulphoxide (Me₂SO) to ?100 °C, and then thawed rapidly in a 37 °C water bath. There was no correlation between the extent of supercooling or the maximum cooling rate after freezing and cell survival, but the time taken for the sample temperature to return to the temperature at which freezing occurred did influence the survival of the two tissue culture cell lines. These results are interpreted on the basis of current theories according to which cells require sufficient time to lose water as they cool in order to avoid subsquent intracellular freezing, but must be cooled sufficiently rapidly to minimise solution effects. It is concluded that the variations in supercooling that occur in programmed cooling machines present no particular difficulties, providing appropriate cooling rates are chosen.     

Viscosities encountered during the cryopreservation of dimethyl sulphoxide systems

This study determined the viscous conditions experienced by cells in the unfrozen freeze concentrated channels between ice crystals in slow cooling protocols. This was examined for both the binary Me₂SO-water and the ternary Me₂SO-NaCl-water systems.Viscosity increases from 6.9 ± 0.1 mPa s at −14.4 ± 0.3 °C to 958 ± 27 mPa s at −64.3 ± 0.4 °C in the binary system, and up to 55387 ± 1068 mPa s at −75 ± 0.5 °C in the ternary (10% Me₂SO, 0.9% NaCl by weight) solution were seen. This increase in viscosity limits molecular diffusion, reducing adsorption onto the crystal plane. These viscosities are significantly lower than observed in glycerol based systems and so cells in freeze concentrated channels cooled to between −60 °C and −75 °C will reside in a thick fluid not a near-solid state as is often assumed.In addition, the viscosities experienced during cooling of various Me₂SO based vitrification solutions is determined to below −70 °C, as is the impact which additional solutes exert on viscosity. These data show that additional solutes in a cryopreservation system cause disproportionate increases in viscosity. This in turn impacts diffusion rates and mixing abilities of high concentrations of cryoprotectants, and have applications to understanding the fundamental cooling responses of cells to Me₂SO based cryopreservation solutions.     

Cryopreservation of sperm from seven-band grouper,Epinephelus septemfasciatus

In the present study, we examined methods for the cryopreservation of Epinephelus septemfasciatus spermatozoa. The percent motility, average path velocity, and linearity of movement (LIN) of fresh and corresponding post-thaw sperm were evaluated. Sperm motility was investigated using computer-assisted sperm analysis. Five percent dimethyl sulphoxide (Me₂SO) with 95% fetal bovine serum (FBS) was the most successful cryoprotectant diluent with a comparative post-thaw motility of 77.6 ± 8.5%; 5% dimethyl formamide was also effective. Fetal bovine serum was significantly better as an extender when compared with artificial seminal plasma, glucose, and trehalose solution. Sperm tolerated a wide range of cooling rates (from 27.1 to 94.3 °C min^?1); however, the post-thaw motility of sperm cooled to ?30 °C was significantly lower than that of other cooled temperatures (?40 to ?70 °C). The velocity of post-thaw sperm was significantly lower than that of fresh sperm, although LIN remained the same. For effective cryopreservation of seven-band grouper sperm, samples should be diluted in 5% Me₂SO with 95% FBS and cooled to at least ?40 °C before immersion in liquid nitrogen.     

Cryopreservation of cell line Paesun by a rapid cooling

The purpose of the present study was to clarify the possibility of a rapid cryopreservation for cell line Paesun by cooling in the range of 30–40 °C/min to vapor phase of −120 ∼-140 °C before immersion into liquid phase of liquid nitrogen using 10% Me₂SO. After thawing, these cells were examined with assaying viability by trypan blue exclusion staining and survival by cloning in monolayer; the percentages of cell and colony recovery obtained in rapid cooling had a tendency to be lower than that by slow cooling of 1 °C/min but there were no significant differences between them. In addition, post-thaw cells were examined by assaying proliferation and susceptibility to virus lines; there were no significant differences between before and after cryopreservation. In conclusion, these findings indicate that Paesun can be successfully cryopreserved by the rapid cooling rate of 30 °C–40 °C/min.     

The pH-dependent recovery of smooth muscle from storage at -13 degrees C in unfrozen media.

The function of isolated strips of smooth muscle from the guinea pig were assessed by isometric contractile responses to histamine before and after storage at ?13 °C in high potassium, Pipes-buffered solutions containing 30% (w/v) Me₂SO and having different pH values. The structural integrity of the tissue during and after cooling was also assessed by electron microscopy.The pH-dependence of tissue recovery in these muscles was clearly demonstrated after about 17-hr storage at ?13 °C. Despite the wide difference in functional recoveries between groups of muscles cooled in either “high” (7.7) or “low pH” (6.4) media, however, there were no apparent ultrastructural differences between the two differently treated groups of muscles. Muscles from both pH groups, fixed after rewarming to 37 °C, showed the morphological characteristics typically seen in noncooled muscles. An examination of muscle cells which were fixed at ?13 °C (w/v) Me₂SO revealed that the contractile myofibrils of specimens in both experimental groups had undergone a noticeable reorganization and aggregation.     

Function of rabbit kidneys in vitro at normothermia following equilibration with 3.0 M Me2SO and removal by hypertonic washout at 10 degrees C

In the present study, rabbit kidneys were assayed for function on a 37 °C in vitro perfusion system after perfusion on a 10 °C perfusion system which permits the slow introduction and removal of cryoprotectant. The final concentration of 3.0 M Me₂SO was introduced slowly at two different rates. The washout was achieved by perfusion with Me₂SO-free solutions made hypertonic with mannitol. Two regimens of washout were used: 800, 700, 600, 500, and 400 mOsm/kg; and 600, 500, and 400 mOsm/kg.During perfusion at 37 °C, the glomerular filtration rate was similar in all groups and this increased significantly in all groups with time. Protein leakage was minimal. All three Me₂SO groups showed a depressed Na reabsorption capacity, but the 800 mOsm group was the most severely affected. This was also found with glucose reabsorption. We concluded that rabbit kidneys will function well with the cryoprotectant Me₂SO up to 3 M concentration when introduced slowly and washed out with hypertonic mannitol beginning at 600 mOsm/kg. When 800 mOsm is used at the initial step, the proximal tubular function is severely affected.     

Skin cryopreservation: I. Incorporation of radioactive sulfate as a criterion of pigskin graft viability after freezing to −196 °C in the presence of cryoprotectants

The incorporation of radioactive sulfate into glycosaminoglycans was used as a criterion of pigskin graft viability after surface treatment of the pig hide and after cooling and freezing of the graft. Complete surface treatment of the hide (soap, ethanolic iodine, antibiotics, and saline) diminished the incorporation of sulfate by about 40% compared with the control graft. During cooling and freezing the pigskin graft was submitted to 30-min exposures at 20, 4, ?18, ?50, ?150, and ?196 °C sequentially in a medium containing 0.65% NaCl, 3% sorbitol, and either 15% glycerol or 15% Me₂SO. Cooling to ?18 °C reduced the incorporation of sulfate only in the grafts protected by glycerol. A considerable decrease of incorporation was observed after freezing the graft to ?150 and ?196 °C in both cryoprotective solutions. The inclusion of a hold at ?50 °C was important, especially in the case of the Me₂SO medium when about 30% of ³⁵S radioactivity was recovered in the cryopreserved graft compared with the control sample.     

Viability of frozen rat granulocytes and granulocyte precursors

Mature rat polymorphonuclear leukocytes (PMNs) were frozen to ?196 °C, thawed, and tested for functional viability using a variety of criteria. The assays for functional viability included: qualitative and quantitative nitroblue tetrazolium tests for phagocytic activity, fluorometric tests for membrane integrity, chemotaxis, and bactericidal activity. Maximal survival was obtained when mature PMNs were frozen in the presence of 10% dimethyl sulfoxide (Me₂SO) and 5% hydroxyethyl-starch (HES) for cells cooled at ~10 °C per minute, followed by rapid warming. Maximal survival was obtained for granulocyte precursor cells (as measured by CFU-c) after freezing in the presence of 10% Me₂SO and cooling at ~10 °C per minute. The principal new findings for mature PMNs were: (i) there was a synergistic effect between intra- and extracellular protective additives; (ii) the optimal cooling rate increases from approximately 0.3 to 10 °C per minute when an extracellular protective agent, such as HES is included in the freezing media; (iii) the zwitterion buffer Hepes has a small but consistently beneficial effect on survival; (iv) granulocytes obtained from peripheral blood consistently show a higher functional survival after freezing (95%) than do PMNs obtained from a glycogen-induced peritoneal exudate (70%); (v) neither serum, plasma, nor other macromolecules are needed in the postt-haw dilution media to obtain high survival; and (vi) cells frozen using an optimized two-step protocol survived as well as those frozen using a continuous cooling protocol.     

Cryopreservation of granulocytes for transfusion: Studies on human granulocyte isolation,the effect of glycerol on lysosomes,kinetics of glycerol uptake and cryopreservation with dimethyl sulfoxide and glycerol

Existing methods for the cryopreservation of granulocytes employ primarily dimethyl sulfoxide (Me₂SO) rather than glycerol as the cryoprotective additive of choice. Although Me₂SO has been demonstrated to be an effective cryoprotective additive for granulocyte preservation to yield viable cells (dye exclusion, phagocytosis, etc.), the inherent toxicity and clinical objections of Me₂SO as a cryoprotective additive for granulocyte preservation preclude its extensive and routine use in patients. Therefore, glycerol, with its important advantage of nontoxicity, has been investigated for its potential usefulness as a cryoprotective additive for preserving human granulocytes for transfusion.Granulocyte preparations were isolated from impure leukocyte concentrates obtained from the buffy coats of human whole blood. Studies on the isolation and purification of the granulocytes involved separation by sedimentation with dextran, removal of red cells by hypotonic shock with water, resuspension with Plasmatein and further purification by centrifugation. Intact viable granulocytes were obtained with a purity in excess of 90%.Lysosomes were studied as indicators of cryoinjury in granulocytes using β-glucuronidase as the key marker enzyme. This enzyme has been characterized as a sensitive indicator of damage to lysosomes and a direct linear relationship has been established between damage to granulocytes by freezing and amount of lysosomal enzyme released. Addition or presence of the cryoprotectant, glycerol, did not appear to have any adverse effect on lysosomes of intact granulocytes.Studies on the permeation kinetics of glycerol in granulocytes indicated that the additive was freely permeable and did not cause any potentially damaging osmotic changes in cell volume. Granulocytes in various concentrations of glycerol were then frozen at slow, moderate, and rapid cooling rates. Based on the small amount of β-glucuronidase released, good preservation of granulocyte lysosomes has been obtained with a slow cooling rate of 5 °C/min and a concentration of 15% glycerol. Further studies now are necessary to define those conditions of cooling rate and glycerol concentration required to develop a simple method for optimal preservation of granulocytes based on additional functional criteria of viability.