The Pattern of Hydatid Disease—A Retrospective Study from Himachal Pradesh, India

Hydatid disease is a common but little studied disease in Himachal Pradesh, India. This is a retrospective study from the Lady Willingdon Hospital, Manali. 115 patients presenting from April 1996 to March 2007 were included. Outcome measures were mortality and morbidity. 70 patients were female and 46 were male. (One female patient was operated on twice). 78% (n = 90) of the occurrences were hepatic. There were other varied sites. There were fourteen pulmonary hydatids. All patients underwent surgical cystectomy. An “AIR Technique” (Aspiration, Injection, Reaspiration) is described for scolicidal deactivation after March 2003 utilized in thirty two patients. There was no mortality. There were five documented recurrences in our series all of which occurred in cystectomy done without the AIR (Aspiration, Injection, Reaspiration) technique. Hydatid disease is a common disease in Himachal Pradesh warranting a high index of suspicion leading to an early diagnosis. A simple technique called the “AIR TECHNIQUE” (Aspiration, Injection, Reaspiration) is described

Microwave sintering of nickel ferrite nanoparticles processed via sol-gel method

Magnetic nickel ferrite (NiFe2O4) was prepared by sol-gel process and calcined in the 2.45 GHz singlemode microwave furnace to synthesize nickel nanopowder. The sol-gel method was used for the processing of the NiFe2O4 powder because of its potential for making fine, pure and homogeneous powders. Sol-gel is a chemical method that has the possibility of synthesizing a reproducible material. Microwave energy is used for the calcining of this powder and the sintering of the NiFe2O 4 samples. Its use for calcination has the advantage of reducing the total processing time and the soak temperature. In addition to the above combination of sol-gel and microwave processing yields to nanoscale particles and a more uniform distribution of their sizes. X-ray diffraction, energy dispersive X-ray spectroscopy, transmission electron microscopy and vibrating sample magnetometer were carried out to investigate structural, elemental, morphological and magnetic aspects of NiFe2O4. The results showed that the mean size and the saturation magnetization of the NiFe 2O4 nanoparticles are about 30 nm and 55.27 emu/g, respectively. This method could be used as an alternative to other chemical methods in order to obtain NiFe2O4 nanoparticles