This review aims to analyze the development and impact of Artificial Intelligence(AI)in the context of Saudi Arabia’s public healthcare system to fulfill Vision 2030 objectives.It is extensively devoted to AI technol...This review aims to analyze the development and impact of Artificial Intelligence(AI)in the context of Saudi Arabia’s public healthcare system to fulfill Vision 2030 objectives.It is extensively devoted to AI technology deployment relevant to disease management,healthcare delivery,epidemiology,and policy-making.However,its AI is culturally sensitive and ethically grounded in Islam.Based on the PRISMA framework,an SLR evaluated primary academic literature,cases,and practices of Saudi Arabia’s AI implementation in the public healthcare sector.Instead,it categorizes prior research based on how AI can work,the issues it poses,and its implications for the Kingdom’s healthcare system.The Saudi Arabian context analyses show that AI has increased the discreet prediction of diseases,resource management,and monitoring outbreaks during mass congregations such as hajj.Therefore,the study outlines critical areas for defining the potential for artificial intelligence and areas for enhancing digital development to support global healthcare progress.The key themes emerging from the review include Saudi Arabia:(i)the effectiveness of AI with human interaction for sustainable health services;(ii)conditions and quality control to enhance the quality of health care services using AI;(iii)environmental factors as influencing factors for public health care;(iv)Artificial Intelligence,and advanced decision-making technology for Middle Eastern health care systems.For policymakers,healthcare managers,and researchers who will engage with AI innovation,the review proclaims that AI applications should respect the country’s socio-cultural and ethical practices and pave the way for sustainable healthcare provision.More empirical research is needed on the implementation issues with AI,creating culturally appropriate models of AI,and finding new applications of AI to address the increasing demand for healthcare services in Saudi Arabia.展开更多
This study reports the feasibility of using municipal wastewater biosolids as an alternative carbon source for biological phosphorus removal.The biosolids were treated by a lowtemperature,thermal alkaline hydrolysis p...This study reports the feasibility of using municipal wastewater biosolids as an alternative carbon source for biological phosphorus removal.The biosolids were treated by a lowtemperature,thermal alkaline hydrolysis process patented by Lystek International Inc.(Cambridge,ON,Canada)to produce short-chain volatile fatty acids and other readily biodegradable organics.Two sequencing batch reactors(SBRs)were operated with synthetic volatile fatty acids(Syn VFA)and readily biodegradable organics produced from the alkaline hydrolysis of municipal wastewater biosolids(Lystek)as the carbon source,respectively.Municipal wastewaters with different strengths and COD:N:P ratios were tested in the study.The reactors’performances were compared with respect to nitrogen and phosphorus removal.It was observed that phosphorus removal efficiencies were between 98%–99%and 90%–97%and nitrogen removal efficiencies were 78%–81%,and 67%for the Syn VFA and Lystek,respectively.However,the kinetics for phosphorus release and uptake during the anaerobic and aerobic stages with Lystek were observed to be significantly lower than Syn VFA due to the presence of higher order VFAs(C4 and above)and other fermentable organics in the Lystek.展开更多
Objective:To assess the sero-positivity rate of HIV infection among clinically suspected subjects of reproductive age group(15-49 years),biological and behavioral characteristics of the subjects gender specific variat...Objective:To assess the sero-positivity rate of HIV infection among clinically suspected subjects of reproductive age group(15-49 years),biological and behavioral characteristics of the subjects gender specific variation of sero-positivity rale,and the differentials of the sero-positivity rate for the history of blood transfusion or blood products or other organs,history of needle exposure and symptoms of morbidity.Methods:Study is based on the retrospective data of the calendar year 2005 obtained from Voluntary Counseling and Testing Centre(VCTC)(now renamed as ICTC),Department of Microbiology,I.M.S.,B.H.U..Varanasi.These cases were either referred by the consultants of different OPD'S of Sir Sunderlal Hospital or came voluntarily for knowing their HIV status.About 2-3 mL of blood samples were collected in a plain vial and tested for HIV status by strategy Ⅱ/Ⅲ as per WHO/NACO guidelines.Results:Overall sero-positivity of HIV was 15.3%(18.1%in males and 12.2%in females) which increased 6-7 folds in the age group 35-49 years as compared to 15-24 years in both the sexes.Sero-positivity rate in male migrants was 43.1%,while in female migrants it was 18.7%.The history of multiple sexual contacts was about 3 times higher in males as compared to females;predominantly it was very high in male migrants(67.7%) as compared to male non-migrants(15.8%).History of multiple sexual contacts was not uncommon in females and it was 25.0%in female migrants and 9.7%in non-migrant females.The sero-positivity rate with the history of multiple sexual contacts was 45.4%in males and 60.3%in females,while without history of multiple sexual contacts these were only 2.8%and 5.3%respectively.Sero-positive cases had on an average 3.6±1.7 various morbidity symptoms as compared to 0.7±1.1 in sero-negatives.It is to be noted that sero-positivity rate was more in those females who seemed apparently healthy compared to those presenting with some of the symptoms;vice versa,in males presenting with some symptoms HIV infection was 7 times higher than those without symptoms.Conclusions:The findings indicate a high sero-positivity among both the genders.Multiple heterosexual contacts,especially,in migrants are the main root of transmission of HIV.These are causing spread of HIV to their spouses.The multiple sexual contacts in the society,especially,among non migrant females of this region are indicating the distortion of traditions and cultures which are a serious concern and may lead to HTV infection on the rise.Awareness program to the susceptible group is the need to reduce further spread of HIV.展开更多
High speed and small gauge vitrectomy systems have made surgical intervention in complications of diabetic retinopathy(DR)safer.The availability of anti-vascular endothelial growth factor(anti-VEGF)compounds for use i...High speed and small gauge vitrectomy systems have made surgical intervention in complications of diabetic retinopathy(DR)safer.The availability of anti-vascular endothelial growth factor(anti-VEGF)compounds for use in DR has significantly improved intraoperative and postoperative outcomes.This review discusses the indications for surgical intervention in DR.The role of anti-VEGF compounds is discussed as surgical adjuvants with an emphasis on timing of treatment before surgery.展开更多
Comparative investigations of gas sensing characteristics of Fe2O3 in both thin film as well as bulk forms have been performed. Thin film sensors were realized by first depositing Fe films using electron-beam evaporat...Comparative investigations of gas sensing characteristics of Fe2O3 in both thin film as well as bulk forms have been performed. Thin film sensors were realized by first depositing Fe films using electron-beam evaporation followed by thermal oxidation. Bulk sensors in the form of pellets were prepared by cold pressing commercial Fe2O3 powder with subsequent sintering. Both thin film and bulk Fe2O3 sensors exhibited a selective and reversible response characteristics towards H2S with maximum response at an operating temperature of 250°C and 200°C, respectively. A negligible response towards other interfering gases was observed. Thin film sensors exhibited an enhanced response in comparison to that of pellets.展开更多
Crop residues in agriculture pose disposal challenges and contribute to air pollution when burned.This study aims to use pigeonpea and maize stalks to produce biochar at different pyrolysis temperatures.Biochar can se...Crop residues in agriculture pose disposal challenges and contribute to air pollution when burned.This study aims to use pigeonpea and maize stalks to produce biochar at different pyrolysis temperatures.Biochar can serve in carbon sequestration,as a soil amendment,and as an alternative fuel source.Pyrolysis was conducted at 400,500,and 600°C to examine the effects on physicochemical properties,fuel,and energy related properties.Increase in temperatures resulted in decrease of biochar yield,volatile matter,and O/C and H/C atomic ratios,while ash content and essential nutrients increased.Yield was observed to be higher in pigeonpea stalks derived biochar compared to maize stalks derived biochar at same pyrolysis temperatures.The yields of pigeonpea stalks derived biochar at 400°C,500°C,and 600°C are 34,33 and 29%,respectively,and the yields of maize biomass-derived biochar at 400°C,500°C,and 600°C are 29,28,and 26%,respectively.The organic carbon content is found to be higher in the biochar samples prepared at 600°C,i.e.,10.44%,and 10.39%for pigeonpea and maize-derived biochar,respectively.The essential elements of biochar were increased with an increase in pyrolysis temperature except nitrogen which is conversely related to temperature.The biochar obtained through pyrolysis at 400°C demonstrated superior characteristics compared to biochar produced at other temperatures.It exhibited a higher biochar yield,with approximately 84.60%for pigeonpea and 64.85%for maize fixed carbon content.Additionally,the energy retention efficiency was higher,reaching 67.33%for pigeonpea and 42.70%for maize-derived biochar at a pyrolysis temperature of 400°C.The fixed carbon recovery efficiency was also notable at around 200.44%for PPS and 142.37%for maize biochar which is higher compared to biochar produced at other temperatures.Furthermore,the higher heating value(HHV)was approximately 30.75 MJ kg^(−1) for both the biochars,indicating their suitability as alternative solid fuels.A significant CO_(2) reduction potential of 84 CO_(2) eq kg^(−1) and 55 CO_(2) eq kg^(−1) was observed for pigeonpea and maize biochar,respectively.Hence,biochar is a promising and effective option for carbon sequestration,offering environmental benefits.展开更多
An easy and effective solution based procedure for the synthesis of noble metal (both Au and Ag) tipped semiconductor nanomaterials is demonstrated where the metal precursors are taken in water and the semiconductor...An easy and effective solution based procedure for the synthesis of noble metal (both Au and Ag) tipped semiconductor nanomaterials is demonstrated where the metal precursors are taken in water and the semiconductors in organic medium, exploiting the phase transfer and reducing capability of suitably chosen ligands. The phase tranfer route is a generalised approach to form either Ag or Au tips on cadmium chalcogenide nanoparticles and nanorods. While multiple dots of noble metals are formed on the semiconductor nanomaterials initiall~ these coalesce into larger islands with time. The hybrids are characterized by transmission electron microscopy (TEM), X-ray diffraction (XRD), photoluminescence (PL), ultraviolet-visible spectroscopy (UV-vis) and X-ray photoelectron spectroscopy (XPS). A detailed FTIR analysis was also carried out to delineate the role of the ligands in the synthesis.展开更多
基金funded by the Scientific ResearchDeanship at theUniversity ofHa’il-Saudi Arabia through project number-RG-23251.
文摘This review aims to analyze the development and impact of Artificial Intelligence(AI)in the context of Saudi Arabia’s public healthcare system to fulfill Vision 2030 objectives.It is extensively devoted to AI technology deployment relevant to disease management,healthcare delivery,epidemiology,and policy-making.However,its AI is culturally sensitive and ethically grounded in Islam.Based on the PRISMA framework,an SLR evaluated primary academic literature,cases,and practices of Saudi Arabia’s AI implementation in the public healthcare sector.Instead,it categorizes prior research based on how AI can work,the issues it poses,and its implications for the Kingdom’s healthcare system.The Saudi Arabian context analyses show that AI has increased the discreet prediction of diseases,resource management,and monitoring outbreaks during mass congregations such as hajj.Therefore,the study outlines critical areas for defining the potential for artificial intelligence and areas for enhancing digital development to support global healthcare progress.The key themes emerging from the review include Saudi Arabia:(i)the effectiveness of AI with human interaction for sustainable health services;(ii)conditions and quality control to enhance the quality of health care services using AI;(iii)environmental factors as influencing factors for public health care;(iv)Artificial Intelligence,and advanced decision-making technology for Middle Eastern health care systems.For policymakers,healthcare managers,and researchers who will engage with AI innovation,the review proclaims that AI applications should respect the country’s socio-cultural and ethical practices and pave the way for sustainable healthcare provision.More empirical research is needed on the implementation issues with AI,creating culturally appropriate models of AI,and finding new applications of AI to address the increasing demand for healthcare services in Saudi Arabia.
基金financial support from the Natural Sciences and Engineering Research Council of Canada
文摘This study reports the feasibility of using municipal wastewater biosolids as an alternative carbon source for biological phosphorus removal.The biosolids were treated by a lowtemperature,thermal alkaline hydrolysis process patented by Lystek International Inc.(Cambridge,ON,Canada)to produce short-chain volatile fatty acids and other readily biodegradable organics.Two sequencing batch reactors(SBRs)were operated with synthetic volatile fatty acids(Syn VFA)and readily biodegradable organics produced from the alkaline hydrolysis of municipal wastewater biosolids(Lystek)as the carbon source,respectively.Municipal wastewaters with different strengths and COD:N:P ratios were tested in the study.The reactors’performances were compared with respect to nitrogen and phosphorus removal.It was observed that phosphorus removal efficiencies were between 98%–99%and 90%–97%and nitrogen removal efficiencies were 78%–81%,and 67%for the Syn VFA and Lystek,respectively.However,the kinetics for phosphorus release and uptake during the anaerobic and aerobic stages with Lystek were observed to be significantly lower than Syn VFA due to the presence of higher order VFAs(C4 and above)and other fermentable organics in the Lystek.
文摘Objective:To assess the sero-positivity rate of HIV infection among clinically suspected subjects of reproductive age group(15-49 years),biological and behavioral characteristics of the subjects gender specific variation of sero-positivity rale,and the differentials of the sero-positivity rate for the history of blood transfusion or blood products or other organs,history of needle exposure and symptoms of morbidity.Methods:Study is based on the retrospective data of the calendar year 2005 obtained from Voluntary Counseling and Testing Centre(VCTC)(now renamed as ICTC),Department of Microbiology,I.M.S.,B.H.U..Varanasi.These cases were either referred by the consultants of different OPD'S of Sir Sunderlal Hospital or came voluntarily for knowing their HIV status.About 2-3 mL of blood samples were collected in a plain vial and tested for HIV status by strategy Ⅱ/Ⅲ as per WHO/NACO guidelines.Results:Overall sero-positivity of HIV was 15.3%(18.1%in males and 12.2%in females) which increased 6-7 folds in the age group 35-49 years as compared to 15-24 years in both the sexes.Sero-positivity rate in male migrants was 43.1%,while in female migrants it was 18.7%.The history of multiple sexual contacts was about 3 times higher in males as compared to females;predominantly it was very high in male migrants(67.7%) as compared to male non-migrants(15.8%).History of multiple sexual contacts was not uncommon in females and it was 25.0%in female migrants and 9.7%in non-migrant females.The sero-positivity rate with the history of multiple sexual contacts was 45.4%in males and 60.3%in females,while without history of multiple sexual contacts these were only 2.8%and 5.3%respectively.Sero-positive cases had on an average 3.6±1.7 various morbidity symptoms as compared to 0.7±1.1 in sero-negatives.It is to be noted that sero-positivity rate was more in those females who seemed apparently healthy compared to those presenting with some of the symptoms;vice versa,in males presenting with some symptoms HIV infection was 7 times higher than those without symptoms.Conclusions:The findings indicate a high sero-positivity among both the genders.Multiple heterosexual contacts,especially,in migrants are the main root of transmission of HIV.These are causing spread of HIV to their spouses.The multiple sexual contacts in the society,especially,among non migrant females of this region are indicating the distortion of traditions and cultures which are a serious concern and may lead to HTV infection on the rise.Awareness program to the susceptible group is the need to reduce further spread of HIV.
文摘High speed and small gauge vitrectomy systems have made surgical intervention in complications of diabetic retinopathy(DR)safer.The availability of anti-vascular endothelial growth factor(anti-VEGF)compounds for use in DR has significantly improved intraoperative and postoperative outcomes.This review discusses the indications for surgical intervention in DR.The role of anti-VEGF compounds is discussed as surgical adjuvants with an emphasis on timing of treatment before surgery.
文摘Comparative investigations of gas sensing characteristics of Fe2O3 in both thin film as well as bulk forms have been performed. Thin film sensors were realized by first depositing Fe films using electron-beam evaporation followed by thermal oxidation. Bulk sensors in the form of pellets were prepared by cold pressing commercial Fe2O3 powder with subsequent sintering. Both thin film and bulk Fe2O3 sensors exhibited a selective and reversible response characteristics towards H2S with maximum response at an operating temperature of 250°C and 200°C, respectively. A negligible response towards other interfering gases was observed. Thin film sensors exhibited an enhanced response in comparison to that of pellets.
文摘Crop residues in agriculture pose disposal challenges and contribute to air pollution when burned.This study aims to use pigeonpea and maize stalks to produce biochar at different pyrolysis temperatures.Biochar can serve in carbon sequestration,as a soil amendment,and as an alternative fuel source.Pyrolysis was conducted at 400,500,and 600°C to examine the effects on physicochemical properties,fuel,and energy related properties.Increase in temperatures resulted in decrease of biochar yield,volatile matter,and O/C and H/C atomic ratios,while ash content and essential nutrients increased.Yield was observed to be higher in pigeonpea stalks derived biochar compared to maize stalks derived biochar at same pyrolysis temperatures.The yields of pigeonpea stalks derived biochar at 400°C,500°C,and 600°C are 34,33 and 29%,respectively,and the yields of maize biomass-derived biochar at 400°C,500°C,and 600°C are 29,28,and 26%,respectively.The organic carbon content is found to be higher in the biochar samples prepared at 600°C,i.e.,10.44%,and 10.39%for pigeonpea and maize-derived biochar,respectively.The essential elements of biochar were increased with an increase in pyrolysis temperature except nitrogen which is conversely related to temperature.The biochar obtained through pyrolysis at 400°C demonstrated superior characteristics compared to biochar produced at other temperatures.It exhibited a higher biochar yield,with approximately 84.60%for pigeonpea and 64.85%for maize fixed carbon content.Additionally,the energy retention efficiency was higher,reaching 67.33%for pigeonpea and 42.70%for maize-derived biochar at a pyrolysis temperature of 400°C.The fixed carbon recovery efficiency was also notable at around 200.44%for PPS and 142.37%for maize biochar which is higher compared to biochar produced at other temperatures.Furthermore,the higher heating value(HHV)was approximately 30.75 MJ kg^(−1) for both the biochars,indicating their suitability as alternative solid fuels.A significant CO_(2) reduction potential of 84 CO_(2) eq kg^(−1) and 55 CO_(2) eq kg^(−1) was observed for pigeonpea and maize biochar,respectively.Hence,biochar is a promising and effective option for carbon sequestration,offering environmental benefits.
文摘An easy and effective solution based procedure for the synthesis of noble metal (both Au and Ag) tipped semiconductor nanomaterials is demonstrated where the metal precursors are taken in water and the semiconductors in organic medium, exploiting the phase transfer and reducing capability of suitably chosen ligands. The phase tranfer route is a generalised approach to form either Ag or Au tips on cadmium chalcogenide nanoparticles and nanorods. While multiple dots of noble metals are formed on the semiconductor nanomaterials initiall~ these coalesce into larger islands with time. The hybrids are characterized by transmission electron microscopy (TEM), X-ray diffraction (XRD), photoluminescence (PL), ultraviolet-visible spectroscopy (UV-vis) and X-ray photoelectron spectroscopy (XPS). A detailed FTIR analysis was also carried out to delineate the role of the ligands in the synthesis.
