Permanent preservation of whole alizarin red S skeletons by clearing and embedding in polyester resins

A one-step clearing and embedding procedure for alizarin red S stained skeletons is described. Embryos are fixed in formalin, skinned and eviscerated. After staining in a 10 mg/liter solution of alizarin red S in 5% aqueous KOH, specimens are dehydrated in a graded series of acetone-polyester monomer solutions. Finally, the specimens are embedded at room temperature in the polyester resin. A special reusable metallic mold is described for embedment of large fetuses. Specimens previously cleared in glycerol can be processed with this method.     

Cartilage-staining technique for the examination of unskinned fetal rat specimens previously processed with alizarin red S

A novel staining technique has been devised that permits a cartilage examination of unskinned fetal rats that have been previously processed for skeletal examination with alizarin red S. The procedure consists of rinsing alizarin red S-stained specimens in distilled water and placing the specimens in a 3% acetic acid solution. A transfer of the stain from bone to adjacent cartilage occurs, producing purple-stained cartilaginous structures that can be differentiated from still-discernible bone structures.     

An automated technique for double staining mouse fetal and neonatal skeletal specimens to differentiate bone and cartilage

Historically, some fetuses for regulatory developmental toxicity studies have been stained with alizarin red S and cleared with glycerol to visualize the ossified portion of their skeletons. Interest in examining cartilage arose owing to its inclusion in some regulatory guidelines. Methods for double staining rat skeletons have been published previously. The method described here for staining mouse skeletons is fully automated and uses alizarin red S to stain bone and Alcian blue to stain cartilage. Pregnant mice (Crl:CD1) were euthanized on gestation day 18 to obtain fetal specimens. Day 0 post-partum mouse pups also were stained. Our method was developed using the Shandon Pathcentre , which is a fully enclosed automated staining system that allows staining to be carried out at 30° C with a final clearing at 35° C. Our method uses the same solutions as for fetal rat processing, but with reduced time periods for the smaller size of mice vs. rat specimens. Staining, maceration and clearing of the specimens requires approximately 2 days. The time required of laboratory personnel, however, is minimal, because all solutions are changed automatically and the specimens do not require examination or removal from the processor until processing is complete. After processing, the specimens are suitable for immediate assessment of bone and cartilage. A mouse developmental toxicity study using 20 animals/group and approximately 10 fetuses/animal could be processed in only three runs using one machine.     

A Modification of Alizarin Red S Technic for Demonstrating Bone Formation: Methods of Mounting,Photographing and Demonstrating the Specimens

This paper shows that by using solutions heated in the incubator during certain stages, the alizarin red S method of staining the ossified centers in embryos has been shortened, with a consequent saving in time.

New methods of mounting the specimens have been evolved and are described in detail.

The technic of photographing mounted and unmounted specimens is outlined and illustrated by diagrams.

Diagrammatic illustrations are provided of the various types of apparatus used, including a plan of the cabinet for demonstrating clearly the smaller embryos mounted between watch glasses. Photographic examples of the results achieved are also shown.     

Rapid Schedules for Koh Clearing and Alizarin Red S Staining of Fetal Rat Bone

Various schedules for staining fetal rat skeleton with alizarin red S were tested to determine a procedure that would produce a completely cleared and well-stained specimen in a short period of time. A 2 day procedure is presented which can produce specimens that are satisfactory but not completely transparent. A 7 day procedure produces cleared and stained specimens which can be well visualized with a dissecting microscope (30×). Fetal rats of 21 days gestation were fixed in 10% formalin for at least 1 wk. The specimens were skinned and eviscerated and then dehydrated in 2 changes of acetone for 12 hr (8 ml per gram body weight). The specimens were then placed in 1% KOM-alizarin red S (6 mg/liter) or 3 days, followed by 10% KOH-alizarin red S for 3 days. Finally, the specimens were placed in a mixture of benzyl alcohol, ethanol, and glycerol (1:2:2) (4 ml per gram body weight) for 12 hr, and then transferred to pure glycerol for storage.     

A Modification of Alizarin Red S Technic for Demonstrating Bone Formation: Methods of Mounting, Photographing and Demonstrating the Specimens

This paper shows that by using solutions heated in the incubator during certain stages, the alizarin red S method of staining the ossified centers in embryos has been shortened, with a consequent saving in time.

New methods of mounting the specimens have been evolved and are described in detail.

The technic of photographing mounted and unmounted specimens is outlined and illustrated by diagrams.

Diagrammatic illustrations are provided of the various types of apparatus used, including a plan of the cabinet for demonstrating clearly the smaller embryos mounted between watch glasses. Photographic examples of the results achieved are also shown.     

A rapid procedure for routine double staining of cartilage and bone in fetal and adult animals

A simple, rapid procedure for dual staining of cartilage and bone in rodents, particularly in late gestation, has been developed for routine use. The procedure involves rapid, complete skinning of fresh eviscerated specimens following a 30 sec immersion in a 70 C water bath. The unfixed specimen is stained in a mixture of 0.14% Alcian blue and 0.12% alizarin red S in ethanol and glacial acetic acid. Specimens are then macerated in 2% KOH, cleared and hardened in 1:1 glycerin and distilled water, and stored in pure glycerin. Rapid staining of cartilage only is done in a mixture of 0.08% Alcian blue, glacial acetic acid, and ethanol, with subsequent maceration, clearing, and hardening as in the double staining procedure. Rapid staining of bone only, concurrent with maceration of soft tissue, can be done by placing fresh, unskinned specimens in a diluted mixture of alizarin red S in 2% KOH, with subsequent clearing and hardening in 1:1 distilled water and glycerin. Good quality fetal specimens can be prepared for examination by any of these procedures in a minimum of 11/2-2 days as compared to a minimum of 4-5 days for other procedures. Double stained specimens can be examined for abnormalities of the cartilage as well as bone.     

A procedure for differential staining of cartilage and bone in whole formalin-fixed vertebrates.

This paper describes a modification of the Simons and Van Horn (1971) procedure for rendering cartilage blue, bone red, and soft tissue translucent or transparent in whole vertebrate specimens. Alcian blue and alizarin red S are used to stain cartilage and bone respectively. In our procedure formalin is used as a fixative. This is a significant modification because formalin is the common fixative for museum specimens. This clearing and staining procedure is thus readily applicable to comparative studies in anatomy, embryology and systematic zoology.     

Alizarin Red S and Toluidine Blue for Differentiating Adult or Embryonic Bone and Cartilage

This technic has been successfully employed by the author for staining, in toto, the bones and cartilage of mature specimens of Urodela and the developing bone and cartilage of the embryonic human, cat, pig and rat. The differential staining is accomplished by using a modification of Dawson's method of staining bone with alizarin red S following a toluidine blue solution specific for cartilage. Specimens are fixed in 10% formalin, stained one week in a solution of .25 g. of toluidine blue in 100 cc. of 70% alcohol, macerated 5 to 7 days in a 2% KOH solution, counterstained for 24 hours in a 0.001% solution of alizarin red S in 2% aqueous KOH, dehydrated in cellosolve and cleared in methyl salicylate. In the adult and embryonic forms thus treated the soft tissues are cleared while the osseous tissue is stained red, the cartilage blue.     

A Simple Method Using Alizarin Red S For the Detection of Calcium in Epoxy Resin Embedded Tissue

This report presents a simple procedure for staining 1-2 μm epoxy plastic sections of cells and mineralizing matrix present in fetal bovine bone tissue cultures. A 0.3% aqueous toluidine blue 0 solution was used as a cellular stain and was followed with 2% alizarin red S for the detection of calcium at sites of mineralition. Effects of concentration and pH of alizarin red S on the penetration of epon embedded thick sections were investigated Optimal staining was achieved with a 2% aqueous alizarin red S solution adjusted to a pH of 5.5-6.5. This staining procedure provides unusually clear contrast between mineral and bone cells in plastic sections for light microscopy.     

A simple method using alizarin red S for the detection of calcium in epoxy resin embedded tissue

This report presents a simple procedure for staining 1-2 microns epoxy plastic sections of cells and mineralizing matrix present in fetal bovine bone tissue cultures. A 0.3% aqueous toluidine blue O solution was used as a cellular stain and was followed with 2% alizarin red S for the detection of calcium at sites of mineralization. Effects of concentration and pH of alizarin red S on the penetration of epon embedded thick sections were investigated. Optimal staining was achieved with a 2% aqueous alizarin red S solution adjusted to a pH of 5.5-6.5. This staining procedure provides unusually clear contrast between mineral and bone cells in plastic sections for light microscopy.     

An Automated Technique for Double Staining Rat and Rabbit Fetal Skeletal Specimens to Differentiate Bone and Cartilage

Assessment of chemicals for their potential to cause developmental toxicity must include evaluation of the development of the fetal skeleton. The method described here is an improved and fully automated double staining method using alizarin red S to stain bone and alcian blue to stain cartilage. The method was developed on the enclosed Shandon PathcentreTM, and the quality of specimens reported here will be reproduced only if carried out on a similar processor under the same environmental conditions. The staining, maceration and clearing process takes approximately 6 days. The personnel time, however, is minimal since solutions are changed automatically and the fetuses are not examined or removed from the processor until the procedure is completed. Upon completion of processing, the bone and cartilage assessment of the specimens can be carried out immediately if required. Full evaluation of skeletal development in both the rat and the rabbit is necessary to meet the requirements of safety assessment studies. This method allows this to be accomplished on a large scale with consistently clear specimens and in a realistic time.     

Enzyme and immunohistochemical assessment of myocardial damage after ischaemia and reperfusion in a closed-chest pig model.

The usefulness of different enzyme and immunohistochemical stains to distinguish reversible and irreversible myocardial cell injury after experimental coronary artery occlusion of varying duration and reperfusion with or without superoxide dismutase as adjunct was investigated. Biopsies or parts of the infarcted and non-infarcted area were rapidly frozen and sectioned in series for enzyme and immunohistochemical evaluation. Sections were stained for the demonstration of phosphorylase, myofibrillar ATPase and mitochondrial oxidative enzymes and also with periodic acid-Schiff, alizarin red S and routine histological stains. Other sections in series were stained with antibodies against fibronectin and the intermediate filament proteins desmin and vimentin. In 49 biopsies a blind quantitative estimation of the area stained for fibronectin, phosphorylase and alizarin red S was performed and evaluated statistically. Phosphorylase, periodic acid-Schiff, fibronectin and alizarin red S allowed delineation of affected myocardium after 30 min of ischaemia followed by reperfusion whereas with the other stains, affected myocardium was readily detectable only after 60 or 90 min of ischaemia followed by reperfusion as well as after 24 h of ischaemia without reperfusion. The immunostaining for fibronectin was very distinct and inversely related to the phosphorylase activity. We show that fibronectin is an excellent marker for damaged cells and that these positively stained myocytes are necrotic as confirmed ultrastructurally. Using alizarin red S as a marker of calcium accumulation in myocytes, a marked discrepancy was observed between the area of fibronectin-containing myocytes and that of myocytes stained by alizarin red S. Calcium accumulation in mitochondria is thus not a prerequisite for myocyte necrosis but does occur only in some of the irreversibly damaged cells. Of special interest is the finding that there was a significant reduction of intracellular calcium in pigs where superoxide dismutase had been used as an adjunct at reperfusion, thus supporting the theory that free radicals do play a role during reperfusion of ischaemic myocardium.     

Enzyme and immunohistochemical assessment of myocardial damage after ischaemia and reperfusion in a closed-chest pig model

The usefulness of different enzyme and immunohistochemical stains to distinguish reversible and irreversible myocardial cell injury after experimental coronary artery occlusion of varying duration and reperfusion with or without superoxide dismutase as adjunct was investigated. Biopsies or parts of the infarcted and non-infarcted area were rapidly frozen and sectioned in series for enzyme and immunohistochemical evaluation. Sections were stained for the demonstration of phosphorylase, myofibrillar ATPase and mitochondrial oxidative enzymes and also with periodic acid-Schiff, alizarin red S and routine histological stains. Other sections in series were stained with antibodies against fibronectin and the intermediate filament proteins desmin and vimentin. In 49 biopsies a blind quantitative estimation of the area stained for fibronectin, phosphorylase and alizarin red S was performed and evaluated statistically. Phosphorylase, periodic acid-Schiff, fibronectin and alizarin red S allowed delineation of affected myocardium after 30 min of ischaemia followed by reperfusion whereas with the other stains, affected myocardium was readily detectable only after 60 or 90 min of ischaemia followed by reperfusion as well as after 24 h of ischaemia without reperfusion. The immunostaining for fibronectin was very distinct and inversely related to the phosphorylase activity. We show that fibronectin is an excellent marker for damaged cells and that these positively stained myocytes are necrotic as confirmed ultrastructurally. Using alizarin red S as a marker of calcium accumulation in myocytes, a marked discrepancy was observed between the area of fibronectin-containing myocytes and that of myocytes stained by alizarin red S. Calcium accumulation in mitochondria is thus not a prerequisite for myocyte necrosis but does occur only in some of the irreversibly damaged cells. Of special interest is the finding that there was a significant reduction of intracellular calcium in pigs where superoxide dismutase had been used as an adjunct at reperfusion, thus supporting the theory that free radicals do play a role during reperfusion of ischaemic myocardium.     

Elimination of Fat and Protein Prior to the Selective Staining of Bone

The technic of staining skeletal systems previously described is often unsatisfactory for fetal specimens of Aves, because of the large amount of fat and protein. The writer avoids this by introducing two preliminary steps: (1) The specimen is placed in equal parts of glycerin, 95% alcohol and distilled water, and 10% aqueous pepsin (with a drop of 6N HC1 added) injected into the yoik sac, with 2-3 hours incubation at 40^oC. (2) While in 5% aqueous KOH (with a few drops of 2% H₂O₂), the fat areas are injected with cellosolve; and the specimen is left in this solution until skeletal elements become clearly visible. Staining in alizarin red S then follows.     

Mass marking of Leuciscus idus larvae using Artemia salina as a vector of fluorescent dyes

A method for the mass marking of ide Leuciscus idus larvae by feeding them Artemia salina nauplii that were immersed in different solutions of alizarin red S, tetracycline hydrochloride and calcein was tested. The best quality marks were obtained after feeding fish for 4 days with nauplii that had been immersed in 200 mg l^?1 alizarin red S.     

Automated Differential Staining for Cartilage and Bone in Whole Mount Preparations of Vertebrates

An automated, rapid procedure for differential staining of cartilage and bone of vertebrates is described. The process involves rapid, complete staining of freshly skinned, eviscerated specimens after 30 sec immersion in a 70 C water bath, fixation in formol acetic alcohol and a rinse in 70% alcohol. Using an automatic tissue processor, the specimen is stained in alcian blue for 24 hr and macerated in 3% potassium hydroxide for 8 hr. Staining in alizarin red with maceration in 3% potassium hydroxide is completed manually. The specimens are cleared and preserved in glycerol. Good quality evenly stained specimens can be examined in less than three days and up to 600 fetuses can be processed in less than five days.     

Automated differential staining for cartilage and bone in whole mount preparations of vertebrates

An automated, rapid procedure for differential staining of cartilage and bone of vertebrates is described. The process involves rapid, complete staining of freshly skinned, eviscerated specimens after 30 sec immersion in a 70 C water bath, fixation in formol acetic alcohol and a rinse in 70% alcohol. Using an automatic tissue processor, the specimen is stained in alcian blue for 24 hr and macerated in 3% potassium hydroxide for 8 hr. Staining in alizarin red with maceration in 3% potassium hydroxide is completed manually. The specimens are cleared and preserved in glycerol. Good quality evenly stained specimens can be examined in less than three days and up to 600 fetuses can be processed in less than five days.     

Demonstrating the Osseous Skeleton of Human Embryos and Fetuses

Transparent human embryos and fetuses whose osseous skeletons are stained in toto by alizarin red S are successfully prepared when the KOH clearing of the soft tissues and the alizarin staining of the bones are performed simultaneously instead of independently. This modification minimizes the possibility of macerating and staining the soft tissues. Fetuses over 50 mm. CR length are skinned, eviscerated, decerebrated, defatted by dissection, fixed in 95% alcohol, bleached in H₂O₂, cleared and stained simultaneously in an aqueous solution of KOH (from 2% to 10% depending upon the size of the specimen) and .0001 to .00005% alizarin red S (solution has a pale lavender color). This solution is changed periodically to maintain the concentration of the KOH until the clearing of the tissues is complete and of the alizarin until the bones are properly stained. Tissues are dehydrated in increasing concentrations of glycerin and stored in white glycerin plus thymol.     

Whole-mount bone and cartilage staining of chick embryos with minimal decalcification

Abstract

Whole-mount staining with Alcian blue for cartilage and alizarin red for bone has been widely used for visualizing the skeletal patterns of embryos and small adult vertebrates. The possibility of decalcification by the acidic Alcian blue solution is known, but standard staining protocols do not always avoid this issue. We investigated the effects of acidity on the stainability of developing bones in stage 36 chick embryos and developed an optimal procedure for obtaining reliable results with minimal decalcification. The diaphyses of long bone rudiments and the maxillofacial membranous bones progressively lost their stainability with alizarin red when the chick embryos were soaked for long periods in the preceding acidic Alcian blue staining solution for cartilage. Unless the acidity was neutralized with an alkaline solution, the remaining acidity in the specimens rendered the pH sufficiently low to prevent the subsequent alizarin red staining of the bones. These findings indicate that the mineralizing bones at the early stages of development are labile to acidity and become decalcified more substantially during the staining process than previously appreciated. The following points are important for visualizing such labile mineralizing bones in chick embryos: 1) fixing with formaldehyde followed by soaking in 70% ethanol, 2) minimizing the time that the specimens are exposed to the acidic Alcian blue solution, and 3) neutralizing and dehydrating the specimens by an alkaline-alcohol solution immediately after the cartilage staining. When the exact onset and/or an early phase of ossification are of interest, the current double-staining procedure should be accompanied by a control single-staining procedure directed only toward bone.