Lithium (Greek, meaning Stone) was discovered by Arfwedson in 1811. 1 Lithium carbonate (Li 2 CO 3), salt form of lithium, is commonly used as a psychiatric medication for the treatment of mania, both acutely and in the long term. 2,3 The therapeutic uses of lithium also include use as an augmenting agent in depression, schizoaffective disorder, aggression, impulse control disorder, eating disorders, attention deficit disorder and in certain subsets of alcoholism. Lithium has been used in many medical disorders, especially cluster headache and dermatological disorders (seborrheic dermatitis, eczematoid dermatitis, genital herpes). 4 Initially, lithium was used to treat Urinary calculi and gout with little success, 5 till Cade J. (1949), 6 reported its antimanic effect. Lithium belongs to alkali group of metals, having atomic no.3 and atomic weight of 6.93. It is water soluble, non protein bound and is distributed in all body fluids. 7 Lithium is readily absorbed after oral administration and its peak level is reached in 2-4 hrs. About 95% of absorbed lithium carbonate is excreted in urine; about 1% in feces and 4-5 % in sweat. 2,8 Lithium binds poorly to high and low molecular weight plasma ABSTRACT Background: Lithium is routinely used to treat mania and other psychiatric disorders. It prevents the mood swing changes in bipolar disorders and the treatment is usually prolonged. Aim of current study was to observe histological changes in the thyroid gland of lithium carbonate treated albino rats. Methods: Sixty albino rats were taken and divided into two groups, group A (control group) of 15 animals, were fed with normal diet and group B of 45 animals, were fed normal diet along with lithium carbonate at the dose of 30mg/kg body weight daily. The animals were sacrificed at four, eight and twelve week's interval, 5µm sections prepared and stained with haematoxylin and eosin stain. Results: Microscopic changes in thyroid gland of albino rats were evident after 8 weeks of drug administration which include marked pleomorphism, shrinkage in size of thyroid follicles, excess of colloid and marked vacuolations in acini. At 12 th week of study, follicles were found both macro and micro follicular, with variable lining epithelium and hyperchromatic nuclei. Lining epithelium of some follicles was disrupted. The stroma was infiltrated with lymphocytes and eosinophils and there were some interfollicular hemorrhages. Conclusions: Lithium given over prolonged period will cause macro and micro follicular goiter with hyperplastic epithelium and hyper chromatic nuclei, hyperplasia of stroma with increased vascularity, sometimes hemorrhages and finally may lead to thyroiditis like picture. So, it is advised that patients on lithium therapy should be periodically evaluated for thyroid dysfunction
Background: Computerized tomography scan (CT scan) can be useful for the measuring the calvarial thickness in human beings. This could help in identifying the racial and the gender variations in calvarial thickness in a population. The data obtained about calvarial thickness study in human population may be useful for researchers, anatomists, anthropologists, surgeons and manufacturers of surgical screws.Methods: This was an observational study carried out on 104 subjects, with a normal computerized tomography CT scan of the head. Any subject with a skull fractures or an underlying intracranial lesion were excluded from study. A total of 52 males and 52 females who presented in the radiology department for CT head were studied in a consecutive manner. The thickness of skull bone was measured on console (Somatom, Siemens 16 slice).Results: Our study population consisted of 52 male and 52 female subjects. The mean age for males was 48.03 (Range 18-70) years and while as the mean age of females was 47.37 (Range 18-73) years. We did not find any difference in the thickness of the frontal bone at upper third, middle third and lower third between the two sexes. However, the posterior third parietal bone, the anterior and middle third occipital bone was significantly thicker in females when compared to males.Conclusions: Our study suggests that the anterior third of the parietal bone has a more calvarial thickness on the right side than on the left side in both males and females. However, the female calvarium has a significantly thicker calvarium at the posterior third parietal; anterior and middle third occipital bones when compared to male counterparts showing a sexual dimorphism in our study population.
Background: Shoulder joint is a multiaxial, diarthrodial joint of ball and socket variety. The various components of shoulder joint i.e. capsule, various ligaments, joint cavity and synovial tissue start developing in early embryonic and foetal life roughly in between 6 th to 12 th week of foetal development. The present study aims to analyze the sequences of development of various structures of shoulder joint in human embryo and compare the findings with other observers to gain some insight regarding its development and an attempt is made to correlate these observations clinically to analyze cause and management of recurrent shoulder dislocations. Methods: Shoulder joints of 32 foetuses collected from areas in and around Jammu were dissected properly and decalcified in Gooding and Stewart's solution. Sections were cut after obtaining blocks by paraffin wax embedding method. Slides were stained using Haematoxylin and Eosin, Masson's trichrome and orcein staining and important findings were documented. Results: The bony structures-head of humerus and glenoid fossa and joint cavity appear by 10 weeks which prolongs into bicipital sulcus by 12-1/2 weeks. Synovial tissue appears by 10 weeks and synovial villi appear by 14 weeks. Glenoid labrum, capsular ligament, coracohumeral ligament and superior glenohumeral ligament are seen by 10 weeks. Middle glenohumeral ligament is seen at 12-1/2 weeks while inferior glenohumeral ligament is seen at 14 weeks. Tendon of biceps is seen at 10 weeks. Conclusions: By 10 weeks of gestational age various structures of shoulder joint develop in situ, resembling in form and arrangement as those of adults. From these early stages, development proceeds rapidly to achieve adult characteristics. There are no intermediate stages in between where structures similar to those of lower forms i.e. syn/amphi artroses appear temporarily.
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