Order |
Research name |
Owner and participants of the publications or journals |
Publications or journals published |
1 |
Benzoyl peroxide-loaded exchange induced in situ forming gel comprising polyethylene glycol and peppermint oil |
Jantadee T, Mahadlek J, Charoentreeraboon J, Phaechamud T. |
The International Conference of Pharmaceutical Sciences and Medicines 2017 (ICPAM). 16 June 2017. Chonburi, Thailand.
|
2 |
Fluid properties of beta-cyclodextrin solutions in injectable solvents
|
Thurein M.S, Phaechamud T. |
The International Conference of Pharmaceutical Sciences and Medicines 2017 (ICPAM). 16 June 2017. Chonburi, Thailand. |
3 |
In-situ forming microparticle fabricated with different oils as external phase
|
Chuenbarn T, Phaechamud T. |
The International Conference of Pharmaceutical Sciences and Medicines 2017 (ICPAM). 16 June 2017. Chonburi, Thailand. |
4 |
Eutectic emulsion solvent evaporation for azithromycin nanosuspension preparation |
Mahadlek J, Tuntarawongsa S, Phaechamud T. |
The International Conference of Pharmaceutical Sciences and Medicines 2017 (ICPAM). 16 June 2017. Chonburi, Thailand.
|
5 |
Characterization of chitosan dispersion and chitosan scaffold comprising metal stearate and montmorillonite |
Tuntarawongsa S, Phaechamud T. |
The International Conference of Pharmaceutical Sciences and Medicines 2017 (ICPAM). 16 June 2017. Chonburi, Thailand. |
6 |
Protective effect of Sonneratia caseolaris (L.) extraction on ischemia models in astrocytic cells
|
Phuagphong P, Punpae S, Phaechamud T. |
Silpakorn International conference on Total Art & Science. 3-5 November 2021. Nakhon Pathom, thailand. p.218-222. |
7 |
การปลดปล่อยยาจากแคปซูลออสโมติกและปัจจัยที่เกี่ยวข้อง |
ธาราธีร์ ศรีจันทร์, ธวัชชัย แพชมัด |
วารสารไทยเภสัชศาสตร์และวิทยาการสุขภาพ. 10(3): 122-131; ก.ค.-ก.ย.58. (review article) |
8 |
Viscoelastic and thermal properties of doxycycline hyclate-loaded bleached shellac in situ-forming gel and -microparticle
|
Phaechamud T, Lertsuphotvanit N, Praphanwittaya P. |
Journal of Drug Delivery Science and Technology. 44: 448-456; Jan 2018. (Scopus, ISI, Pubmed) |
9 |
Designing solvent exchange-induced in situ forming gel from aqueous insoluble polymers as matrix base for periodontitis treatment |
Srichan T, Phaechamud T. |
AAPS PharmsciTech. 18(1): 194-201; Feb 2017. |
10 |
Cholesterol in situ forming gel loaded with doxycycline hyclate for intra-periodontal pocket delivery
|
Phaechamud T, Setthajindalert O. |
European Journal of Pharmaceutical Sciences. 99: 258-265; Jan 2017. |
11 |
Characterization of antimicrobial agent loaded eudragit RS solvent exchange-induced In situ forming gels for periodontitis treatment.
|
Phaechamud T, Jantadee T, Mahadlek J, charoensuksai P, Pichayakorn W. |
AAPS PharmSciTech. 18(2): 494-508; Feb 2017. |
12 |
Spatial distributing lubricants from Raman mapping and scanning electron microscopy–energy dispersive X-ray spectroscopy on cetirizine dihydrochloride fast disintegrating tablet properties
|
Katewongsa P, Terada K, Phaechamud T. |
Journal of Pharmaceutical Investigation. 47(3); 249-262. (Scopus) |
13 |
Antioxidant activity and total phenolic contents of some Thai traditional formulation
|
Mahadlek J, Tuntarawongsa S, Phaechamud T. |
Isan Journal of Pharmaceutical Sciences (IJPS). 13(Supplement): 97-105; Jan-Mar 2017. (TCI กลุ่ม 1) |
14 |
Eutectic system as drug delivery for periodontitis treatment |
Tuntarawongsa S, Mahadlek J, Phaechamud T.
|
Isan Journal of Pharmaceutical Sciences (IJPS). 13(Supplement): 89-96; Jan-Mar 2017. (TCI กลุ่ม 1) |
15 |
Thermal properties and rheological behaviors of the anesthetic gel containing lidocaine and prilocaine
|
Chitrattha S, Phaechamud T. |
Thai Pharmaceutical and Health Science Journal. 12(1): 19-22; Jan-Mar 2017. (TCI กลุ่ม 1) |
16 |
Cetirizine dihydrochloride, β-cyclodextrin inclusion complex by ethanol kneading for taste masking |
Katewongsa P, Lertsuphotvanit N, Phaechamud T.
|
Indian Journal of Pharmaceutical Sciences. 79(5): 758-767; Sep-Oct 2017. (Scopus, ISI) |
17 |
Porous poly(DL-lactic acid) matrix film with antimicrobial activities for wound dressing application |
Chitrattha S, Phaechamud T. |
Materials Science and Engineering C. 58: 1122-1130; Jan 2016. |
18 |
In situ forming gel comprising bleached shellac loaded with antimicrobial drugs for periodontitis treatment |
Phaechamud T, Mahadlek J, Chuenbarn T. |
Meterials and Design. 89: 294-303; 2016. |
19 |
Pore formation of mechanism of porous poly(DL-lactic acid) matrix membrane |
Phaechamud T, Chitrattha S. |
Materials Science and Engineering C. 61: 744-752; Jan 2016. |
20 |
Gentamicin sulfate-loaded porous natural rubber films for wound dressing. |
Phaechamud T, Issarayungyuen P, Pichayakorn W. |
International Journal of biological Macromolecules. 85: 634-644; Apr 2016. |
21 |
Doxycycline hyclate-loaded bleached shellac in situ forming microparticle for intraperiodontal pocket local delivery |
Phaechamud T, Chanyaboonsub N, Setthajindalert O. |
European Journal of Pharmaceutical Sciences. 93: 360-370; Oct 2016. (ISI)
|
22 |
Transformation of eutectic emulsion to nanosuspension fabricating with solvent evaporation and ultrasonication technique |
Phaechamud T, Tuntarawongsa S. |
International Journal of Nanomedicine. 11: 2855-2865; 2016. |
23 |
Evaporation behavior and characterization of eutectic solvent and ibuprofen eutectic solution |
Phaechamud T, Tuntarawongsa S, Charoensuksai P. |
AAPS PharmSciTech. 17(5): 1213-1220; Oct 2016. |
24 |
Doxycycline and metronidazole exhibit a synergistic antibacterial activity against Porphyromonas Gingivalis |
Charoensuksai P,Mahadlek J, Phaechamud T, Charoenteeraboon J.
|
Thai Pharmaceutical and Health Science Journal. 11(3): 92-97; Jul-Sep 2016. (TCI กลุ่ม 1) |
25 |
Drug release behavior of polymeric matrix filled in capsule |
Phaechamud T, Darunkaisorn W. |
Saudi Pharmaceutical Journal. 24: 627-634; 2016. |
26 |
Double-layered matrix of shellac wax-lutrol controlled dual drug release
|
Phaechamud T, Choncheewa C. |
AAPS PharmsciTech. 17(6): 1326-1335; Dec 2016. |
27 |
Determination of heavy metals in Moringa oleifera capsules by ICP-MS |
Charoenteeraboon J, Limmatvapirat C, Limmatvapirat S, Phaechamud T. |
Advanced Materials Research. 1060: 231-234. 2015. |
28 |
N-benzyl chitosan in situ forming antimicrobial gel for periodontitis treatment |
Mahadlek J, Sajomsang W, Phaechamud T. |
Advanced Materials Research. 1060: 159-163. 2015. |
29 |
Application of eutectic solvent to preparation of Ibuprofen suspension by emulsion evaporation method |
Tuntarawongsa S, Phaechamud T. |
Advanced Materials Research. 1060: 188-191. 2015. |
30 |
Role of temperature change on poly(DL-lactic acid) porous matrix film fabrication by solvent casting method |
Chitrattha S, Phaechamud T. |
Advanced Materials Research. 1060: 184-187. 2015. |
31 |
Single and dual drug release patterns from shellac wax-lutrol matrix tablets fabricated with fusion and molding techniques |
Phaechamud T, Choncheewa C. |
Indian Journal of Pharmaceutical Sciences. 77(1): 62-74; Jan-Feb 2015. |
32 |
Chitosan-aluminum monosterate composite spong dressing containing asiaticosie for wound healing and angiognesis promotion in chronic wound |
Phaechamud T, Yodkhum K, Charoenteeraboon J, Tabata Y. |
Material Science and Engineering C. 50: 210-225; 2015. |
33 |
Bleached shellac as an alternative polymeric matrix for in situ microparticle |
Praphanwittaya P, Phaechamud T. |
Advanced Materials Research. 659: 8-12; 2015. |
34 |
Metrodidazole in situ forming Eudragit RS gel comprising different solvents |
Mahadlek J, Phaechamud T. |
Advanced Materials Research. 659: 13-18; 2015. |
35 |
Bromocriptine tablet of self-microemulsifying system adsorbed onto porous carrier to stimulate lipoproteins secretion for brain cellular uptake |
Thongrangsalit S, Phaechamud T, Lipipun V, Ritthidej C.G. |
Colloids and Surfaces B: Biointerfaces. 131: 162-169; 2015. |
36 |
Solvent exchange-induced in situ forming gel comprising ethyl cellulose-antimicrobial drugs |
Phaechamud T, Mahadlek J. |
International Journal of Pharmaceutics. 494(1): 381-392; Oct 2015. |
37 |
Hydrophobic chitosan sponges modified by aluminum monostearate and dehydrothermal treatment as sustained drug delivery system |
Yodkhum K, Phaechamud T. |
Materials Science and Engineering C. 42: 715-725; Sep 2014 |
38 |
Natural rubber latex foam loading with metronidazole |
Issarayungyuen P, Nithi-Uthai N, Pichayakorn W, Phaechamud T.
|
Advanced Materials Research. 844: 490-493. 2014. |
39 |
Cast natural rubber films comprising triethyl citrate
|
Issarayungyuen P, Pichayakorn W, Phaechamud T. |
Advanced Materials Research. 844: 494-497. 2014. |
40 |
Highly glycerin-loaded natural rubber films prepared by casting technique using different solvents
|
Issarayungyuen P, Pichayakorn W, Phaechamud T. |
Advanced Materials Research. 844: 190-193. 2014. |
41 |
Modulation of drug release form natural rubber coated capsule loaded with sodium bicarbonate and camphor |
Issarayungyuen P, Pichayakorn W, Phaechamud T.
|
Advanced Materials Research. 844: 170-173. 2014. |
42 |
Pore formation of natural rubber film comprising different liquids
|
Phaechamud T, Issarayungyuen P, Pichayakorn W. |
Advanced Materials Research. 844: 174-177. 2014. |
43 |
Role of clove oil in solvent exchange-induced doxycycline hyclate-loaded Eudragit RS in situ forming gel |
Phaechamud T, Thurein M.S, Chantadee T.
|
Asian Journal of Pharmaceutical Sciences. 13: 131-142; Sep 2018. (Scopus) |
44 |
Solvent effect on fluid characteristics of doxycycline hyclateloaded bleached shellac in situ-forming gel and –microparticle formulations.
|
Phaechamud T, Praphanwittaya P, Laotaweesub K. |
Journal of Pharmaceutical Investigation. 48: 409-419; May 2018. (Scopus) |
45 |
Antimicrobial in-situ forming gels based on bleached shellac and different solvents |
Phaechamud T, Setthajindalert O.
|
Journal of Drug Delivery Science and Technology. 46: 285-293; Aug 2018. (Scopus) |
46 |
Peppermint oil/doxycycline hyclate-loaded Eudragit RS in situ forming gel for periodontitis treatment
|
Phaechamud T, Mahadlek J, Tuntarawongsa S. |
Journal of Pharmaceutical Investigation. 48: 451-464; Jun 2018. (Scopus) |
47 |
Single phase and interfacial behaviour of concentrated beta-cyclodextrin solution |
Rein T.M.S, Lertsuphotvanit N, Phaechamud T.
|
Thai Journal of Pharmaceutical Sciences. (TJPS) 42(Supplement Issue): 193-197; 2018. (Scopus) |
48 |
Physicochemical properties of β-cyclodextrin solutions and precipitates prepared from injectable vehicles |
Thurein M.S, Lertsuphotvanit N, Phaechamud T.
|
Asian Journal of Pharmaceutical Sciences. 13: 438-449; Sep 2018. (Scopus) |
49 |
Design, fabrication and characterization of xanthan gum/liquid-loaded porous natural rubber film |
Phaechamud T, Lertsuphotvanit N, Issarayungyuen P, Chantadee T.
|
Journal of Pharmaceutical Investigation. 49(1): 149-160; Jan 2019. (Scopus) |
50 |
การประยุกต์ใช้กรดไขมันทางเภสัชกรรม
|
ฐกร จันทะดี, ณัฐดนัย เลิศสุโภวณิชย์, ธวัชชัย แพชมัด |
วารสารไทยไภษัชยนิพนธ์. 14(1): 1-11: ม.ค.-มิ.ย. 2562 (TCI กลุ่ม 1) (review article) |
51 |
Solvent exchange and drug release characteristics of doxycycline hyclate-loaded bleached shellac in situ-forming gel and -microparticle |
Phaechamud T, Senarat S, Puyathorn N, Praphanwittaya P.
|
International Journal of Biological Macromolecules. 135: 1261-1272; Aug 2019. (Scopus, ISI) |
52 |
Gamboge Resin-Based Phase Separation In Situ Forming Gel. |
EI Mon Khaing, Chantadee T, Intaraphairot T, Phaechamud T.
|
Key Engineering Materials. 819: 215-220; Aug 2019. (Scopus) |
53 |
Matrix Forming Behavior of Doxycycline Hyclate-Loaded Beta-Cyclodextrin In Situ Forming Matrix and Microparticle. |
Lertsuphotvanit N, Chaiya P, Phaechamud T.
|
Key Engineering Materials. 819: 221-226; Aug 2019. (Scopus) |
54 |
Characterization of Lauric Acid Precipitated from Biocompatible Solvents. |
Puyathorn N, Chantadee T, Senarat S, Phaechamud T.
|
Key Engineering Materials. 819: 209-214; Aug 2019. (Scopus) |
55 |
Alpha-Mangostin Phase Inversion Induced In Situ Forming Gel. |
Senarat S, Chantadee T, Santimaleeworagun W, Phorom Y, Phaechamud T. |
Key Engineering Materials. 819: 202-208; Aug 2019. (Scopus)
|
56 |
Mixed Solvent-Lauric Acid Solvent-Exchange Induced In Situ Forming Gel.
|
Chantadee T, Santimaleeworagun W, Phorom Y, Phaechamud T. |
Key Engineering Materials. 819: 195-201; Aug 2019. (Scopus) |
57 |
Emerging role of polyethylene glycol on doxycycline hyclateincorporated Eudragit RS in situ forming gel for periodontitis treatment |
Wai Wai Lwin, Puyathorn N, Senarat S, Phaechamud T. |
Journal of Pharmaceutical Investigation. 50(1): 81-94; Jan 2020. (Scopus, ISI) |
58 |
Vancomycin hydrochloride-loaded stearic acid/lauric acid in situ forming matrix for antimicrobial inhibition in patients with joint infection after total knee arthroplasty. |
Chantadee T, Sawangsri P, Santimaleeworagun W, Phaechamud T.
|
Materials Science & Engineering C. 115: 110761; Feb 2020. (Scopus, ISI) |
59 |
Phase behavior of doxycycline hyclate-incorporated bleached shellac in situ forming gel/microparticle after solvent movement |
Senarat S, Charoenteeraboon J, Praphanwittaya P, Phaechamud T.
|
Key Engineering Materials. 859: 21-26; August 2020. (Scopus) |
60 |
Differential scanning calorimetric analysis for incompatibility: Sodium stearate/magnesium stearate and acidic compounds |
Chaiya P, Phaechamud T.
|
Key Engineering Materials. 859: 307-312; August 2020. (Scopus) |
61 |
Surface tension/contact angle characters of aprotic binary borneol-dimethyl sulphoxide mixture |
Lertsuphotvanit N, Tuntarawongsa S, Mahadlek J, Phaechamud T.
|
Key Engineering Materials. 859: 74-80; August 2020. (Scopus) |
62 |
Xanthan gum-incorporated natural rubber film casted with solvent evaporation |
Puyathorn N, Phaechamud T. |
Key Engineering Materials. 859: 68-73; August 2020. (Scopus) |
63 |
Antibacterial agent-incorporated cholesterol phase inversion-based in situ forming matrix for crevicular pocket delivery |
Setthajindalert O, Aung K.S, Charoenteeraboon J, Sirinamarattana A, Phaechamud T. |
Key Engineering Materials. 859: 107-112; August 2020. (Scopus) |
64 |
Meloxicam-loaded solvent exchange-induced in situ forming betacyclodextrin gel and microparticle for periodontal pocket delivery |
Rein S.M.T, Lwin W.W, Tuntarawongsa S, Phaechamud T. |
Materials Science & Engineering C. 117: 111275; July 2020. (Scopus, ISI) |
65 |
Phase inversion-induced rosin in situ forming matrix using various organic biocompatible solvents for periodontitis treatment |
Lertsuphotvanit N, Mahadlek J, Tuntarawongsa S, Phaechamud T. |
Key Engineering Materials. 855: 237-244; August 2020. (Scopus) |
66 |
Compatibility between magnesium stearate and pharmaceutical acidic active compounds/excipients with DSC |
Chaiya P, Phaechamud T.
|
Key Engineering Materials. 855: 190-197; August 2020. (Scopus) |
67 |
Comparison of doxycycline hyclate release from beta-cyclodextrin based in situ forming systems for periodontal pocket targeting T |
Tuntarawongsa S, Mahadlek J, Lertsuphotvanit N, Phaechamud T. |
Key Engineering Materials. 859: 120-124; August 2020. (Scopus) |
68 |
Combination effects of gambogic acid on imatinib mesylate cytotoxicity in colon cancer cells
|
Khaing E.M, Saenpunya T, Kerdklai P, Pangpongma S, Vongvijit S, Phaechamud T, Intaraphairot T. |
Key Engineering Materials. 859: 27-33; August 2020. (Scopus) |
69 |
Saturated fatty acid-based in situ forming matrices for localized antimicrobial delivery |
Chantadee T, Santimaleeworagun W, Phorom Y, Phaechamud T.
|
Pharmaceutics. 12(9): article 808; Sep 2020. (ISI, Scopus) |
70 |
Propranolol HCl and salicylic acid-loaded hydrophilic and hydrophobic colloidal silicon dioxide anhydrous gels |
Mahadlek J, Lwin W.W, Toprasri P, Phaechamud T.
|
Thai Pharmaceutical and Health Science Journal. 15(3): 195-209; Jul-Sep 2020. (TCI กลุ่ม 1) |
71 |
Non-aqueous emulsion for pharmaceutical applications: Part 1 Fundamental and component.
|
Tuntarawongsa S, Lwin W.W, Phaechamud T. |
Thai Pharmaceutical and Health Science Journal. 15(4): 282-288; Oct-Dec 2020. (TCI กลุ่ม 1) |
72 |
Non-aqueous emulsion for pharmaceutical applications: Part 2 The development and pharmaceutical applications.
|
Mahadlek J, Lwin W.W, Phaechamud T. |
Thai Pharmaceutical and Health Science Journal. 15(4): 289-295; Oct-Dec 2020. (TCI กลุ่ม 1) |
73 |
Augmentative aspect of in situ formation of vancomycin HCl-loaded molecularly designed fatty acid-based in situ forming matrices |
Chantadee T, Sirirak J, Hoshino T, Phaechamud T. |
Materials and Design. 199: 109429; Jan 2021. (ISI, Scopus) (Chiba University =#488)
|
74 |
Vancomycin HCl-loaded lauric acid in situ-forming gel with phase inversion for periodontitis treatment |
Chantadee T, Santimaleeworagun W, Phorom Y, Chuenbarn T, Phaechamud T.
|
Journal of Drug Delivery Science and Technology. 57: 101615; Feb 2020. (ISI, Scopus) |
75 |
Effect of production process and addition of other oils/vehicles on physicochemical properties of coconut oil. |
Rein S.M.T, Anuchatkidjaroen S, Phaechamud T. |
Thai Pharmaceutical and Health Science Journal. 16(1): 63-71; Jan-Mar 2021. (TCI กลุ่ม 1)
|
76 |
Doxycycline hyclate-loaded in situ forming gels composed from bleached shellac, Ethocel, and Eudragit RS for periodontal pocket delivery. |
Senarat S, Lwin W.W, Mahadlek J, Phaechamud T.
|
Saudi Pharmaceutical Journal. 29: 252-263; Feb 2021. (ISI, Scopus) |
77 |
Cyproterone acetate sustained-release injection using mixed coconut oil/solvent as vehicle. |
Tuntarawongsa S, Anuchatkidjaroen S, Rein S.M.T, Phaechamud T.
|
Thai Pharmaceutical and Health Science Journal. 11(2): 156-163; Apr 2021. (TCI กลุ่ม 1) |
78 |
Natural-resin in-situ-forming gels: Physicochemical characteristics and bioactivities |
Khaing E.M, Intaraphairot T, Santimaleeworagun W, Phorom Y, Chuenbarn T, Phaechamud T. |
Pharmaceutical Sciences Asia. 48(5): 461-470; Sep 2021. (Scopus)
|
79 |
โฟมทางเครื่องสำอางและการประยุกต์ใช้ |
ศรัณย์ ตันตะราวงศา, ณชพล บุญประคอง, ลลิตา สุขสุดประเสริฐ, วรากร ธรรมสุทธิ์, ฐกร จันทะดี, ธวัชชัย แพชมัด |
วารสารไทยเภสัชศาสตร์และวิทยาการสุขภาพ. 16(3): 285-293; ก.ค.-ก.ย.2564. (TCI กลุ่ม 1) (review article)
|
80 |
Thermal properties and crystallinity behavior of hydrochlorothiazide and propranolol HCl incorporated in shellac wax-poloxamer matrix bases. |
Chaiya P, Choncheewab C, Thammasut W, Phaechamud T.
|
Thai Pharmaceutical and Health Science Journal. 16(3): 239-254; Jul-Sep 2021. (TCI กลุ่ม 1) |
81 |
Alteration of crystallinity and thermal properties from incompatibility between ibuprofen and boundary lubricants.
|
Chaiya P, Chinpaisal C, Limmatvapirat S, Phaechamud T. |
Materials Today: Proceedings: 47(12): 3500-3508; Oct 2021. (Scopus) |
82 |
Physical properties and bioactivity of clove oil-loaded solvent |
Mahadlek J, Sai Myo Thu Rein, Chinpaisal C, Phaechamud T.
|
Materials Today: Proceedings: 47(12): 3509-3516; Oct 2021. (Scopus) |
83 |
Bleached shellac in situ forming micro-particle fabricated with different |
Chuenbarn T, Tuntarawongsa S, Janmahasatian S, Phaechamud T.
|
Materials Today: Proceedings: 47(12): 3546-3553; Oct 2021. (Scopus) |
84 |
Natural resin-based solvent exchange induced in-situ forming gel for vancomycin HCl delivery to periodontal pocket
|
Ei Mon Khaing, Intaraphairot T, Chuenbarn T, Chantadee T, Phaechamud T. |
Materials Today: Proceedings: 47(12): 3585-3593; Oct 2021. (Scopus) |
85 |
Borneol-based antisolvent-induced in situ forming matrix for crevicular pocket delivery of vancomycin hydrochloride
|
Lertsuphotvanit N, Santimaleeworagun W, Narakornwit W, Chuenbarn T, Mahadlek J, Chantadee T, Phaechamud T. |
International Journal of Pharmaceutics. 617: 121603; Feb 2022. (ISI, Scopus) |
86 |
Beta-cyclodextrin-based in situ forming micro-particle for intra-periodontal pocket antimicrobial drug delivery. |
Tuntarawongsa S, Lertsuphotvanit N, Mahadlek J, Phaechamud T.
|
Materials Today: Proceedings: 47(12): 3430-3435; Oct 2021. (Scopus) |
87 |
เยื่อแผ่นไม่สมมาตรและการประยุกต์ใช้ทางเภสัชกรรม |
วรากร ธรรมสุทธิ์, ปฏิญญา สว่างศรี, ประพันธ์ศักดิ์ ตวงสุวรรณ, ฐกร จันทะดี, ธวัชชัย แพชมัด |
วารสารไทยเภสัชศาสตร์และวิทยาการสุขภาพ. 16(4): 386-402; ต.ค.-ธ.ค.2564. (TCI กลุ่ม 1)
|
88 |
Fluid properties of solvents and oils used in in situ forming microparticles
|
Rein S.M.T, Intaraphairot T, Santimaleeworagun W, Chantadee T, Chuenbarn T, Phaechamud T. |
Thai Journal of Pharmaceutical Sciences. 46(1): 46-55; Jan-Feb 2022. (Scopus) |
89 |
Lime peel oil–incorporated rosin-based antimicrobial in situ forming gel
|
Khaing E.M, Mahadlek J, Okonogi S, Phaechamud T. |
Gels. 8: 169; Mar 2022. (ISI, Scopus) |
90 |
Clotrimazole-loaded fatty acid-based in situ forming film oral spray |
Mahadlek J, Thurein S.M, Thammasut W, Phaechamud T.
|
Materials Today. 52: 2479-2484; Jan 2022. (Scopus) |
91 |
Natural rubber/gelatin composite capsule shell for controlling drug release |
Chuenbarn T, Kusonwiriyawong C, Chantadee T, Phaechamud T.
|
Materials Today. 52: 2490-2495; Jan 2022. (Scopus) |
92 |
Effect of matrix-forming agent ratios on drug release, water sorption and erosion behaviors of shellac wax-poloxamer matrix tablet |
Chaiya P, Phaechamud T.
|
Materials Today. 52: 2439-2443; Jan 2022. (Scopus) |
93 |
Theophylline extended-release monolithic matrix comprising natural rubber latex as binder
|
Chaiya P, Phaechamud T. |
Materials Science and Engineering. 1234: 012001; Mar 2022. (Scopus) |
94 |
Effect of arecoline, aqueous and methanolic areca nut extracts on rumen fluke |
Puyathorn N, Sukonpan C, Toungsuwan P, Narakornwit W, Phaechamud T.
|
Materials Science and Engineering. 1234: 012019; Mar 2022. (Scopus) |
95 |
The validation HPLC method for determination of gambogic acid in gamboge resin |
Khaing E.M, Jitrangsri K, Mahadlek J, Sukonpan C, Phaechamud T.
|
Materials Science and Engineering. 1234: 012020; Mar 2022. (Scopus) |
96 |
Design and comparative evaluation of vancomycin HCl-loaded rosin-based in situ forming gel and microparticles
|
Chuenbarn T, Sirirak J, Tuntarawongsa S, Okonogi S, Phaechamud T. |
Gels. 8: 231; Apr 2022. (ISI, Scopus) |
97 |
Doxycycline hyclate-loaded Eudragit® RS PO in situ-forming microparticles for periodontitis treatment
|
Chuenbarn T, Chantadee T, Phaechamud T. |
Journal of Drug Delivery Science and Technology. 71: 103294; May 2022. (ISI, Scopus) |
98 |
Deproteinized natural rubber latex as matrix base of meloxicam transdermal patches
|
Suksaeree J, Waiprib R, Simchareon W, Phaechamud T, Pichayakorn W. |
Key Engineering Materials. 914: 3-8; Mar 2022. (Scopus) |
99 |
In situ solvent removal-based eudragit L/dimethyl sulfoxide forming gel for periodontal pocket drug delivery |
Mahadlek J, Tuntarawongsa S, Senarat S, Phaechamud T.
|
Materials Today. 52: 2394-2399; Jan 2022. (Scopus) |
100 |
Eudragit RL in 2-pyrrolidone as antisolvent-based in-situ forming matrix
|
Tuntarawongsa S, Mahadlek J, Senarat S, Phaechamud T. |
Materials Today. 52: 2534-2538; Jan 2022. (Scopus) |
101 |
Stereomicroscope with imaging analysis: A versatile tool for wetting, gel formation and erosion rate determinations of eutectic effervescent tablet
|
Chaiya P, Okonogi S, Phaechamud T. |
Pharmaceutics. 14: 1280; Jun 2022. (ISI, Scopus) |
102 |
ยาสีฟันฟอกฟันขาว |
ธวัชชัย แพชมัด, วรากร ธรรมสุทธิ์, ใจเอก ชลชีวะ, ประพันธ์ศักดิ์ ตวงสุวรรณ, ฐกร จันทะดี
|
วารสารไทยเภสัชศาสตร์และวิทยาการสุขภาพ. 17(2): 198-203; เม.ย.-มิ.ย. (TCI กลุ่ม 1) (review article) |
103 |
Synergistic anticancer activity of cinnamon bark oil and imatinib mesylate combination on colorectal cancer cell lines
|
Khaing E.M, Phaechamud T, Intaraphairot T. |
Key Engineering Materials. 914: 93-98; Mar 2022. (Scopus) |
104 |
Imatinib mesylate-loaded rosin/cinnamon oil-based In situ forming gel against colorectal cancer cells |
Khaing E.M, Intaraphairot T, Mahadlek J, Okonogi S, Pichayakorn W, Phaechamud T.
|
Gels. 8: 526; Aug 2022 (ISI, Scopus) |
105 |
Thermoresponsive azithromycin-loaded niosomes gel based on poloxamer 407 and hyaluronic interactions for periodontitis treatment |
Kerdmanee K, Phaechamud T, Limsitthichaik S.
|
Pharmaceutics. 14(10): 2032; Oct 2022. (ISI, Scopus) |
106 |
Phase separation and intermolecular binding energy of ibuprofen in some organic solvents |
Puyathorn N, Sirirak J, Chantadee T, Phaechamud T. |
Materials Today: Proceedings. 65: 2303-2308; May 2022. (Scopus)
|
107 |
Fluid properties and phase transition of antimicrobial eudragit RS/clove oil in situ forming depot
|
Chantadee T, Thammasut W, Phaechamud T. |
Materials Today: Proceedings. 65: 2296-2302; May 2022. (Scopus) |
108 |
Morphological and physicochemical behaviors of borneol precipitates
|
Lertsuphotvanit N, Tuntarawongsa S, Sirirak J, Phaechamud T. |
Materials Today: Proceedings. 65: 2315-2321; May 2022. (Scopus) |
109 |
Fluid properties of various Eudragit® solutions in different solvent systems for periodontal pocket injection |
Senarat S, Phaechamud T, Mahadlek J, Tuntarawongsa S. |
Materials Today: Proceedings. 65: 2399-2406; Jun 2022. (Scopus)
|
110 |
New insight into the impact of effervescence on gel layer microstructure and drug release of effervescent matrices using combined mechanical and imaging characterisation techniques |
Chaiya P, Rojviriya C, Pichayakorn W, Phaechamud T. |
Pharmaceutics. 14(11): 2299; Nov 2022. (ISI, Scopus) |
111 |
Natural rubber blends for floating theophylline beads
|
Pichayakorn W, Chaiya P, Chinpaisal C, Phaechamud T. |
International Journal of Biological Macromolecules. 224: 725-738; Jan 2023. (ISI, Scopus) |
112 |
Natural rubber-based pressure sensitive adhesive as a drug carrier |
Puyathorn N, Limsirilak S, Pichayakorn W, Kalkornsurapranee E, Phaechamud T.
|
Materials Today. 75: 9-14; Jan 2023. (Scopus) |
113 |
Interfacial properties of rosin solution for the development of natural resin-based in situ forming systems |
Senarat S, Cheunban T, Phaechamud T, Chantadee T.
|
Materials Today. 75: 58-66; Jan 2023. (Scopus) |
114 |
Physicochemical and bioactivity characteristics of doxycycline hyclate-loaded solvent removal-induced ibuprofen-based in situ forming gel |
Puyathorn N, Senarat S, Lertsuphotvanit N, Phaechamud T.
|
Gels. 9(2): 128; Feb 2023. (ISI, Scopus) |
115 |
Antisolvent Eudragit® polymers based in situ forming gel for periodontal controlled drug delivery |
Senarat S, Pichayakorn W, Phaechamud T, Tuntarawongsa S.
|
Journal of Drug Delivery Science and Technology. 82: 104361; Mar 2023. (ISI, Scopus) |
116 |
Levofloxacin HCl-Incorporated zein-based solvent removal phase inversion in situ forming gel for periodontitis treatment |
Senarat S, Rojviriya C, Puyathorn N, Lertsuphotvanit N, Phaechamud T.
|
Pharmaceutics. 15(4): 1199; Apr 2023. (ISI, Scopus) |
117 |
Levofloxacin HCl-loaded eudragit L-based solvent exchange-induced in situ forming gel using monopropylene glycol as a solvent for periodontitis treatment
|
Senarat S, Tuntarawongsa S, Lertsuphotvanit N, Rojviriya C, Phaechamud T, Chantadee T. |
Gels. 9(7): 583; July 2023. (Scopus, ISI) |
118 |
Lincomycin HCl-loaded borneol-based in situ gel for periodontitis treatment |
Puyathorn N, Lertsuphotvanit N, Chantadee T, Pichayakorn W, Phaechamud T.
|
Gels. 9(6): 495; Jun 2023. (Scopus, ISI) |
119 |
Deproteinization of natural rubber latex and its pale-colored thin films |
Suksaeree J, Bumroongrat C, Polraksa N, Taweepreda W, Phaechamud T, Pichayakorn W. |
Sustainability. 15(13): 10015; Jun 2023. (Scopus, ISI)
|
120 |
The efficacy of albumen from different egg sources to generate thermally denatured protein and their IC50 in an anti-inflammatory assay
|
Narakomwit W, Charoenteeraboon J, Phaechamud T, Sukonpan C, Trakoon-osot W. |
Journal of Basic and Applied Pharmacology. 3(2): 68-73; Jul-Dec 2023. (TCI กลุ่ม 1) |
121 |
Injectable gamboge-based in situ gel for sustained delivery of imatinib mesylate |
Jitrangsri K, Khaing E.M, Intaraphairot T, Phaechamud T, Mahadlek J.
|
Gels. 9(9): 737; Sep 2023. (Scopus, ISI) |
122 |
Metronidazole-loaded camphor-based in situ forming matrix for periodontitis treatment |
Jitrangsri K, Lertsuphotvanit N, Kabthong N, Phaechamud T.
|
AAPS PharmSciTech. 24:185; Sep 2023. (Scopus, ISI) |
123 |
Ways to assess and regulate the performance of a bi-mechanism-induced borneol-based in situ forming matrix |
Lertsuphotvanit N, Sirirak J, Tamdee P, Tuntarawongsa S, Phaechamud T, Chantadee T.
|
Pharmaceutics. 15(8): 2053; Jul 2023. (Scopus, ISI) |
124 |
Clotrimazole-loaded borneol-based in situ forming gel as oral sprays for oropharyngeal candidiasis therapy |
Lertsuphotvanit N, Tuntarawongsa S, Jitrangsri K, Phaechamud T. |
Gels. 9(5): 412; May 2023. (Scopus, ISI)
|
125 |
Phase inversion-based doxycycline hyclate-incorporated borneol in situ gel for periodontitis treatment
|
Lertsuphotvanit N, Tuntarawongsa S, Chantadee T, Phaechamud T. |
Gels. 9(7): 557; Jul 2023. (Scopus, ISI) |
126 |
Moxifloxacin HCl-incorporated aqueous-induced nitrocellulose-based in situ gel for periodontal pocket delivery |
Senarat S, Rojviriya C, Sarunyakasitrin K, Charoentreeraboon J, Pichayakorn W, Phaechamud T.
|
Gels. 9(7): 572; Jul 2023. (Scopus, ISI) |
127 |
Computational insight of phase transformation and drug release behaviour of doxycycline-loaded Ibuprofen-bsed in-situ forming gel |
Puyathorn N, Tamdee P, Sirirak J, Okonogi S, Phaechamud T, Chantadee T.
|
Pharmaceutics. 15(9): 2315. Sep 2023. (Scopus, ISI) |
128 |
Numerical mechanistic modelling of drug release from solvent-removal zein-based in situ gel |
Senarat S, Pornsawad P, Lertsuphotvanit N, Østergaard J, Phaechamud T.
|
Pharmaceutics. 15(10): 2401; Oct 2023. (Scopus, ISI) |
129 |
Fluid properties of components for development of eudragit RS-based in-situ forming gel and microparticle and their phase inversions
|
Chuenbarn T, Lertsuphotvanit N, Kabthong N, Richkamroph P, Richkamroph K, Phaechamud T. |
Suranaree Journal of Science and Technology. 30(5): 030135; Sep-Oct 2023. (Scopus, ISI) |
130 |
α-mangostin/clove oil-incorporated lauric acid-based solvent removal-induced in situ forming matrices
|
Phaechamud T, Toungsuwan P, Mahadlek J. |
Suranaree Journal of Science and Technology. 30(5): 030136; Sep-Oct 2023. (Scopus, ISI) |