Efficacy of cryodehydration technique in preserving the gross and histoarchitectural details of goat visceral and musculoskeletal specimens

Sultana, Nasrin; Islam, Rafiqul

doi:10.5455/javar.2023.j727

J Adv Vet Anim Res

2024

DOI: 10.5455/javar.2023.j727

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Efficacy of cryodehydration technique in preserving the gross and histoarchitectural details of goat visceral and musculoskeletal specimens

Nasrin Sultana,

Rafiqul Islam

Abstract: Objective: This study sought to determine the effectiveness of the cryodehydration technique in preserving the morphologic and morphometric attributes of the anatomical specimens of goats. Materials and methods: Different anatomical parts of a goat, i.e., heart, lungs, spleen, liver, kidney, and musculoskeletal specimens, were collected and fixed in 15% formalin. Later on, the fixed specimens were cryodehydrated by fast freezing (burning process) and repeated freezing-thawing sessions, followed by wood glue c… Show more

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2024

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Cryodehydration applied to bovine fetal hearts: A model for studying cardiac organogenesis

Araújo,

de Oliveira Bezerra,

Portela

et al. 2024

Journal of Anatomy

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The study aimed to standardize the cryodehydration technique for bovine fetal hearts, focusing on optimizing protocols for each developmental stage to preserve morphological characteristics. We analyzed 29 bovine fetal hearts categorized into early, middle, and late developmental stages. These hearts underwent cryodehydration until a 60%–70% reduction in original fluid volume was achieved. Biometric data were recorded and statistically analyzed using Pearson correlation tests for age versus weight and age versus number of cryodehydration sessions. Morphometric comparisons before and after cryodehydration were performed using paired t‐tests. In Group I, hearts exhibited well‐defined structures, including the atrium cordis, ventriculus cordis, auricula atrii, aorta, truncus pulmonalis, and ramus coronaries arteria, which were preserved in Groups II and III. Additionally, in Group I the heart had a conical or flat apex cordis, whereas those in Groups II and III had a more pronounced apex. The average number of cryodehydration sessions required was 9.38 (±1.2) days for Group I, 12.37 (±1.4) days for Group II, and 15 days for Group III. A positive correlation was found between age and sample weight, indicating that more developed hearts were heavier. Similarly, there was a positive correlation between gestational age and the number of cryodehydration sessions, suggesting that more advanced stages required more cryodehydration sessions. Paired t‐tests demonstrated high statistical significance in the morphometric parameters before and after cryodehydration, indicating a loss of mass during dehydration. However, there was no alteration in the macroscopic structure of the hearts, which remained morphologically preserved. In conclusion, cryodehydration shows promise for preserving and analyzing the external morphological characteristics of bovine fetal cardiac development. It also provides lightweight, odorless, and easy‐to‐handle specimens ideal for detailed morphological studies and offers a unique perspective for investigating cardiac morphology in biological research contexts.

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Cryodehydration applied to bovine fetal hearts: A model for studying cardiac organogenesis

Araújo,

de Oliveira Bezerra,

Portela

et al. 2024

Journal of Anatomy

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show abstract

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Efficacy of cryodehydration technique in preserving the gross and histoarchitectural details of goat visceral and musculoskeletal specimens

Cited by 1 publication

References 19 publications

Cryodehydration applied to bovine fetal hearts: A model for studying cardiac organogenesis

Cryodehydration applied to bovine fetal hearts: A model for studying cardiac organogenesis

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