ABSTRACT
This review essay investigates the biological and physi- ological consequences of PTSD to deepen its academic understanding, alongside an analysis of psychobiologi- cal testing and assessment procedures. Psychological responses to traumatic events can be acute stress reactions or stress disorders. One among them is post-traumatic stress disorder (PTSD). When people experience a trau- matic event, such as death, terror, or physical injury, they tend to demonstrate fear, helplessness, or hopelessness. Patients displaying other symptoms like re-experiencing the trauma, avoidance, or hyper-arousal also indicate PTSD. Experiencing extended PTSD may cause significant health problems, whether biological, such as the dysfunction of stress-responsive neurobiological sys- tems, or physiological, such as hypertension and heart disease. Previous studies of trauma survivors reported a strong link between physical and mental health. The cumulative literature in psychology shows that traumatic exposure can cause disturbing effects in the short and long term. This review will contribute to developing an understanding of the biological markers of PTSD. This paper specifically deals with biological and physiological testing and assessment of PTSD. It includes widely utilized biological assessments and summarizes a general multi-model assessment to identify PTSD symptoms.
Las respuestas psicológicas a acontecimientos traumáticos pueden dar lugar a estrés agudo, trastornos de estrés o trastornos de estrés postraumático (TEPT). Cuando las personas experimentan un evento traumático, como la muerte de un ser querido, terror o daño físico, tienden a mostrar miedo, impotencia o desesperanza. Mostrar otros síntomas como volver a vivir aquellas experiencias, evasión o hiperexcitación indica TEPT. Sufrir el TEPT a largo plazo puede causar problemas de salud importantes, ya sean biológicos, como la disfunción de los sistemas neurobiológicos sensibles al estrés; o fisiológicos, como la hipertensión y enfermedades cardíacas. Sin embargo, la literatura psicológica deja poco o ningún espacio para tales consecuencias sobre la salud. Para proporcionar información sobre este tema, la presente revisión tiene como objetivo investigar las consecuencias biológicas y fisiológicas del TEPT, y las pruebas y evaluaciones psicobiológicas relacionadas. Esta revisión de la literatura puede contribuir al desarrollo de marcadores biológicos de TEPT.
As respostas psicológicas a eventos traumáticos po- dem levar a estresse agudo, transtornos de estresse ou transtorno de estresse pós-traumático (TEPT). Quando as pessoas vivenciam um evento traumático, como a morte de um ente querido, terror ou danos físicos, elas tendem a demonstrar medo, desamparo ou desesperança. Mostrar outros sintomas, como reviver essas experiências, evitação ou hiperexcitação, indica TEPT. Sofrer de TEPT de longa duração pode causar problemas de saúde significativos, sejam eles biológicos, como disfunção de sistemas neurobiológicos sensíveis ao estresse; ou fisiológicos, como hipertensão e doenças cardíacas. No entanto, a literatura psicológica deixa pouco ou nenhum espaço para a discussão de tais consequências para a saúde. Para fornecer informações sobre esse tópico, a presente revisão tem como objetivo investigar as consequências biológicas e fisiológicas do TEPT, assim como testes e avaliações psicobiológicas relacionados. Esta revisão de literatura pode contribuir para
Subject(s)
HumansABSTRACT
Objective Chitosan has been widely studied in the fields of biomedical materials and tissue engineering,due to its good water solubility,biocompatibility,biodegradability,film-forming property,hemostasis,wound healing and anti-inflammatory effects.Flies maggot shell contains much chitosan,which is one of the excellent raw materials.The aim of this study is to provide integral biological assessment on chitosan trauma dressing.Methods Chitosan samples were subjected to physicochemical analysis (relative molecular mass,degree of deacetylation,and content of heavy metal),bacteriostatic test,skin sensitization,cytotoxicity tests as well as hemolysis test according to national standard of China.Results The relative molecular mass of chitosan was 266 ku,the degree of deacetylation of chitosan was 75%,and the content of heavy metal was less than 10-5.The cytotoxicity level was evalnated at the first level which indicating the low cell toxicity.Skin sensitization test showed that no sensitization reaction was practically detected.The hemolysis rate was 0.769%,which was less than 5%,indicating zero hemolysis.Conclusions Chitosan has good character,which may meet the requirements of biological and medical application.
ABSTRACT
Aconiti Lateralis Radix (Fuzi) is a toxic traditional Chinese medicine with definite efficacy. In order to improve the quality control of its different prepared products and ensure the security in clinic, it is significant to establish a method of quality evaluation related to clinic adverse effects. Aiming at the important biological marker of early cardiac toxicity reaction, there was no method to detect it. In this manuscript, a novel approach for measuring the minimal toxic dose (MTD) of premature ventricular contractions (PVC) poisoning of rats was established. Then, the determination methodology and conditions were optimized to meet the needs of the quality and biological assessment, including animal sex, weight, stability of standards and test solutions. Using this method, the MTD value of different Fuzi products were determined, such as Heishunpian, Baifupian, Zhengfupian, Baofupian, and Paotianxiong. The results showed that the MTD of Fuzi was significantly decreased after detoxification processed (P<0.05) and the MTD of Heishunpian, Zhengfupian, Baofupian and Baifupian was as much as 15.76, 22.36, 19.65 and 20.97 times to that of unprocessed Shengfuzi. In addition, Paotianxiong could not induce PVC in rats, which indicated that Paotianxiong was nontoxic and safe.This method could appropriately reflects the cardiotoxity of Fuzi and its prepared samples. Together with the chemical composition analysis, the contents of diester alkaloids were explored including aconitine, mesaconitine and hypaconitine as well as monoester alkaloids in Fuzi and its prepared products were significantly associated with PVC. Furthermore, there may be some components undetermined facilitating arrhythmia to be worth exploring. This research provides an overall and comprehensive approach to diagnose early clinical cardiotoxity and control the quality of Fuzi, which could not only be a complementary solution for the chemical evaluation, but a new method to ensure its efficacy and security of clinical application.
ABSTRACT
Objective To prepare the composite of Polycaprolactone(PCL) and Bone powder(BP) for bone repairing,and evaluate the biocompatibility of the material.Methods The materials were prepared in college of chemical engineering and materials science,Shanghai Jiaotong University,and the animal tests were fulfilled in Animal Experimental Center of the Second Military Medical University of PLA from June 2010 to March 2011.The PCL and BP were blended together to get the copolymer by haake ( Rheocord 900 ) torque rheometer.Then the extracts of the material in DMEM for 24 hours were obtained.Firstly biological safety detection of the materials was performed:①cytotoxicity test:the extracts were mixed with DMEM to seed rabbit osteoblasts for 24 hours.The cell proliferation was detected by MTT method.The cell proliferation rate and toxicity grate were also calculated ( cytotoxicity of grade 0 or 1 was qualified).②hemolysis test:the extracts were mixed with fresh rabbit blood,hemolysis rate were calculated ( hemolysis mte less than 5% was qualified).③pyrogenic test:the extracts were injected into the rabbit ear vein with the dose of 10 ml/kg.The anus temperature was measured per hour for three times.The elevator degree was calculated by subtracting the natural temperature from the highest one.Secondly,cellular adhesion test of the material composite was performed.The composite was casted on the cover glasses.The samples were put in 6-well tissue culture plates,totally 6 × 104 osteoblasts were seeded each well and cultured for 3 days.The cells were observed at 24 and 72 hours of culture,and photography was performed using inverted phase contrast microscope.④general toxioity test:the extracts were injected into mouse vein with the dose of 50 ml/kg.The toxic symptoms were observed within 72 hours.Results The novel copolymer of PCL/BP was prepared.①Biological safety:the cell viability of the composite was 87.8% and cytotoxicity was grade 1.The hemolysis rate was 2.4%,less than 5%.The maximal variety of body temperature in rabbits were 0.4℃,which accorded with the national standard ( <0.6℃ ).The general toxicity test showed that there were no adverse effects in the animals,such as death,convulsion,paralysis,respiratory depression,diarrhea and decreasing weight.②Cell adhesion:adhesive cells manifold obviously and assembled 24 hours later,inosculated gradually 3 days later,and the cells were in good fettle.Conclusion The composite of PCL/BP accords with cytotoxicity demand of the biological materials,presenting no toxicity,pyrogenicity or hemolysis.It possesses good biocompatibility and cellular adhesion.