N, every 11/16(69 ) as well as meropenem, 10/16(62 ). However, 10/16 (62 ) and 9/16(56 ) of their isolates had been found to become susceptible to piperacillin and tetracycline respectively.Table 5. Antibiotic susceptibility profiles of Gram-negative bacteria isolated from indoor air of selected wards of AMGH, February-April 2021. Bacterial Isolate E. coli n = 15 K. pneumoniae n = 21 E. aerogenes n = 11 C. freundii n = 8 P. vulgaris n = 4 P. mirabilis n = six P. aeruginosa n = 18 Acinetobacter sp. n = 16 Total tested isolates Average susceptibility Typical resistant Susceptibility Pattern n( ) AMP S R S R S R S R S R S R S R S R 9(60) 6(40) four(67) 2(33) 22 13(59) 9(41) PIP 13(87) two(13) 18(86) three(14) 7(64) four(36) five(62) 3(38) 2(50) two(50) five(83) 1(17) 5(28) 13(72) ten(62) 6(38) 99 65(65) 34(35) CTR eight(53) 7(47) 13(62) 8(38) 7(64) 4(36) 7(88) 1(12) three(75) 1(25) three(50) three(50) five(31) 11(69) 81 46(57) 35(43) CFP 5(33) 10(67) 13(62) 8(38) 5(45) six(55) 6(75) two(25) two(50) two(50) 4(67) 2(33) six(33) 12(67) 8(50) 8(50) 99 49(50) 50(50) Antimicrobial agents AGU 5(33) 10(67) 7(33) 14(67) 2(50) two(50) 1(17) 5(83) 46 15(33) 31(67) GEN 9(60) 6(40) 7(34) 14(66) 6(55) five(45) four(50) four(50) 0(0) 4(100) three(50) three(50) six(33) 12(67) eight(50) 8(50) 99 43(43) 56(56) CHL 13(87) 2(13) eight(38) 13(62) 9(82) 2(18) 7(88) 1(12) 1(25) three(75) two(33) 4(67) 65 40(62) 25(38) CIP eight(53) 7(47) 3(14) 18(86) 7(63) four(37) three(38) 5(62) two(50) 2(50) three(50) 3(50) 7(39) 11(61) 5(31) 11(69) 99 38(38) 62(62) MER 6(40) 9(60) 8(38) 13(62) 4(37) 7(63) four(50) 4(50) two(50) 2(50) two(33) 4(67) 5(28) 13(72) six(38) ten(62) 99 37(37) 63(63) TTC three(20) 12(80) 4(19) 17(81) 2(18) 9(82) five(62) three(38) 1(17) 5(83) 9(56) 7(44) 77 24(31) 53(69) SXT four(40) 9(60) 6(29) 15(71) three(28) eight(72) 1(13) 7(87) 0(0) four(one hundred) two(33) four(67) 4(25) 12(75) 81 20(25 61(75)AMP: ampicillin, PIP: piperacillin, CFP: cefopime, CTR: ceftriaxone, GEN: gentamicin, CIP: ciprofloxacin, MER: meropenem, CHL: chloramphenicol, TTC: tetracycline, SXT: sulfamethoxazole-trimethoprim, AGU: amoxicillin-clavulanate, R: resistant, S: susceptible doi.REG-3 alpha/REG3A Protein Formulation org/10.TIM Protein manufacturer 1371/journal.PMID:24670464 pone.0271022.tPLOS One particular | doi.org/10.1371/journal.pone.0271022 July 7,ten /PLOS ONEAir microbial load and antibiotic susceptibility profiles of bacteriaIsolates of E. coli were resistant to tetracycline, ie., 12/15(80 ), whereas 10/15(67 ) of them were resistant, each and every to cefopime and amoxicillin-clavulanate; these isolates also showed exactly the same degree of resistance, ie., 9/15(60 ) to two drugs tested, ie., meropenem and trimethoprimsulfamethoxazole. Comparatively, isolates of E. coli showed only a medium amount of resistance, ie., 8/15(53.3 ) against each ceftriaxone and ciprofloxacin, and an equal degree of resistance, ie., 6/15(40 ) within the case of ampicillin and gentamicin. The higher susceptibility, ie., 13/15 (87 ) shown by the isolates of E. coli to each piperacillin and chloramphenicol is notable. Isolates of E. aerogenes have been resistant against tetracycline, trimethoprim-sulfamethoxazole, and meropenem, ie., 9/11(82 ), 8/11(72 ), and 7/11(63 ) respectively. The same extent of resistance was created against cefopime, ie., 6/11(55 ). Chloramphenicol was an efficient drug, 9/11(82 ) against Enterobacter isolates. Isolates of C. freundii were resistant towards the most typically prescribed antibiotics which include trimethoprim-sulfamethoxazole, 7/8(87.5 ), and ciprofloxacin, 5/8(62 ). Notably, the isolates in the same species have been equally susceptible to each chloramphenicol and ceftriaxone, ie., 7/8 (88 ) and 6/8(75 ) to cefopime (Table 5). I.
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