Your search keyword '"Hou HW"' showing total 10 results

1. Isolation and retrieval of circulating tumor cells using centrifugal forces.

Author

Hou, HW, Warkiani, ME, Khoo, BL, Li, ZR, Soo, RA, Tan, DS-W, Lim, W-T, Han, J, Bhagat, AAS, Lim, CT, Hou, HW, Warkiani, ME, Khoo, BL, Li, ZR, Soo, RA, Tan, DS-W, Lim, W-T, Han, J, Bhagat, AAS, and Lim, CT

Abstract

Presence and frequency of rare circulating tumor cells (CTCs) in bloodstreams of cancer patients are pivotal to early cancer detection and treatment monitoring. Here, we use a spiral microchannel with inherent centrifugal forces for continuous, size-based separation of CTCs from blood (Dean Flow Fractionation (DFF)) which facilitates easy coupling with conventional downstream biological assays. Device performance was optimized using cancer cell lines (> 85% recovery), followed by clinical validation with positive CTCs enumeration in all samples from patients with metastatic lung cancer (n = 20; 5-88 CTCs per mL). The presence of CD133⁺ cells, a phenotypic marker characteristic of stem-like behavior in lung cancer cells was also identified in the isolated subpopulation of CTCs. The spiral biochip identifies and addresses key challenges of the next generation CTCs isolation assay including antibody independent isolation, high sensitivity and throughput (3 mL/hr); and single-step retrieval of viable CTCs.

Published

2013

2. Oxidation reactions of dithiocarbamate complexes of ruthenium(II)

Author

Leung, Wa Hung, Chim, JLC, Hou, HW, Hun, TSM, Williams, Ian Duncan, Wong, WT, Leung, Wa Hung, Chim, JLC, Hou, HW, Hun, TSM, Williams, Ian Duncan, and Wong, WT

Abstract

The reaction of Ru(Et(2)dtc)(2)(DMSO) (Et(2)dtc = N,N-diethyldithiocarbamate; DMSO = dimethyl sulfoxide) with t-BuNC gave trans-Ru(Et(2)dtc)(2)(CN-t-Bu)(2), 1. Complex 1 crystallizes in the monoclinic space group P2(1)/n with 9.753(2) Angstrom, b = 11.583(2) Angstrom, c = 12.974(2) Angstrom, and beta = 91.8(2)degrees for Z = 2. The crystal structure of 1 shows the trans disposition of the two isocyanides; the mean Ru-S and Ru-C distances are 2.409 and 1.477(2) Angstrom, respectively. Treatment of [Ru(diene)Cl-2](n) with Na(Et(2)dtc) afforded Ru(Et(2)dtc)(2)(diene) (diene = bicyclo[2.2.1]-hepta-2,5-diene (NBD), 2, 1,5-cyclooctadiene (COD), 3). Complex 2 crystallizes in the triclinic space group P (1) over bar with a 7.316(1) Angstrom, b = 10.346(1) Angstrom, c = 15.123(2) Angstrom, alpha = 103.69(2)degrees, beta = 93.54(2)degrees, and gamma = 100.61(2)degrees for Z = 2. The mean Ru-S and Ru-C distances in 2 are 2.416 and 2.137 Angstrom, respectively. The reaction of cis-Ru(Et(2)dtc)(2)(CO)(2) with iodine gave the 2:1 molecular iodine complex cis-Ru(Et(2)dtc)(2)(CO)(2).1/2 I-2 4, which crystallizes in the monoclinic space group P2(1)/c with a = 7.347(2), b = 22.227(2) Angstrom, c = 12.891(2) Angstrom, and beta =95.98 (2)degrees for Z = 4. The mean Ru-S and Bu-C and the I-l distances in complex 4 are 2.427, 1.903, and 2.745(1) Angstrom, respectively. Treatment of Ru(Et(2)dtc)(2)(DMSO)(2) with I-2 gave the linear Ru(II)-Ru(III)-Ru(III) trimer [Ru-3(Et(2)dtc)(6)(DMSO)(2)](I-3)(2), 5, which crystallizes in the triclinic space group P (1) over bar with a = 14.125(3) Angstrom, b = 20.829(6) Angstrom, c = 13.658(3) Angstrom, alpha = 97.57(2)degrees, beta = 110.01(2)degrees, and gamma = 71.25(2)degrees for Z = 2. The structure of complex 6 can be viewed as consisting of a {Ru-2(III)(Et(2)dtC)(4)}(2+) Core and a (Ru-II(Et(2)dtc)2(DMSO)(2)\} moiety, which are linked together via the two dithiocarbamate sulfurs of the latter. While the two Ru(III) centers are connected by a Ru-R

Published

1997

3. Epoxide ring opening catalysed by imidochromium complexes

Author

Leung, Wa Hung, Wu, MC, Chim, JLC, Yu, MT, Hou, HW, Yeung, Lam Lung, Wong, WT, Wang, Y., Leung, Wa Hung, Wu, MC, Chim, JLC, Yu, MT, Hou, HW, Yeung, Lam Lung, Wong, WT, and Wang, Y.

Abstract

tert-Butylimidochromium complexes catalysed ring opening of epoxides by SiMe3(N-3) to give azidohydrins in good yields. The proposed mechanism for the chromium-mediated epoxide azidolysis involves the intermediacy of a chromium-azide species which delivers nucleophilic azide to the epoxide substrate. The azido complexes [{Cr(NBut)(2)Cl}(2)(mu-N-3)(2)] I and [Cr((BuN)-N-t=NN=NSiMe3)(N-3)Cl-2] 2 have been isolated in the reactions of SiMe3(N-3) with [Cr(NBut)(2)Cl-2] and [Cr(NBut)Cl-3(dme)] (dme = 1,2-dimethoxyethane), respectively. The structure of complex 1 has been established by X-ray crystallography. The mean Cr-N (imide) and Cr-N (azide) distances are 1.605 and 2.061 Angstrom, respectively Reaction of [Cr(NBut)Cl-3(thf)(2)] (thf = tetrahydrofuran) with (S,S)-diop {4,5-[bis(diphenylphosphino)methyl]-2,2-dimethyl-1,3-dioxolane} gave the dimeric complex [{Cr(NBut)Cl-3}(2){mu-(S,S)-diop}], which has been characterised by X-ray crystallography. The Cr-N and Cr-P distances are 1.593(9) and 2.449(4) Angstrom, respectively.

Published

1997

4. Arylimido complexes of ruthenium(IV) porphyrins

Author

Leung, Wa Hung, Hun, TSM, Hou, HW, Wong, KY, Leung, Wa Hung, Hun, TSM, Hou, HW, and Wong, KY

Abstract

Treatment of [Ru(tbpp)O-2] [H(2)tbpp = 5,10,15,20-tetrakis(p-tert-butylphenyl)porphyrin] with SiMe(3)Cl gave [Ru(tbpp)Cl-2] in good yield. Reaction of [Ru(tbpp)Cl-2] with para-substituted anilines NRH(2) (R = p-XC(6)H(4) where X = Me, H, Cl or I) afforded the first arylimidoruthenium(IV) complexes [Ru(tbpp)(NR)]. These are paramagnetic with mu(eff) ca. 2.8 mu(B) and display H-1 NMR spectra that are typical for paramagnetic ruthenium(IV) porphyrins. The cyclic voltammograms of [Ru(tbpp)(NR)] exhibit reversible Ru-V-Ru-IV and Ru-IV-R(III) couples. Treatment of [Ru(tbpp)(NR)] with Ag-I or Ce-IV afforded the imidoruthenium(V) complex [Ru(tbpp)(NR)](+). The complexes [Ru(tbpp)(NR)] underwent imido-group transfer reactions with tertiary phosphines to give [Ru(tbpp)(PR(3)')(2)] and RN=PR(3)'. The reduction of [Ru(tbpp)(NR)] by PMe(2)Ph shows saturation kinetics, in which the rate is first order in [Ru-IV]. The mechanism proposed for the Ru-mediated imido transfer involves reversible binding of phosphine to Ru-IV and rate-limiting intramolecular imido-group transfer. The first-order rate constant (k(1)) and phosphine binding constant (K) and for the reduction of [Ru(tbpp)(NC(6)H(4)Me-p)] by PMe(2)Ph at 25.0 degrees C in toluene solution were determined to be (6.86 +/- 0.19) x 10(-4) s(-1) and (23.6 +/- 6.5) x 10(3) mol dm(-3), respectively. The activation enthalpy (Delta H-double dagger) and entropy (Delta S-double dagger) for the above reaction are 125 +/- 1 kJ mol(-1) and 113 +/- 21 J K-1 mol(-1), respectively. For the reduction of para-X-substituted arylimido complexes [Ru(tbpp)(NC(6)H(4)X-p)] by tertiary PMe(2)Ph the rate decreases in the order X = I > H approximate to Cl > Me. The imido transfer from [Ru-V(tbpp)(NC(6)H(4)Me-p)](+) to PMe(2)Ph is about 60 times faster than that from [Ru-IV(tbpp)(NC(6)H(4)Me-p)].

Published

1997

5. Oxidation reactions of dithiocarbamate complexes of ruthenium(II)

Author

Leung, Wa Hung, Chim, JLC, Hou, HW, Hun, TSM, Williams, Ian Duncan, Wong, WT, Leung, Wa Hung, Chim, JLC, Hou, HW, Hun, TSM, Williams, Ian Duncan, and Wong, WT

Abstract

The reaction of Ru(Et(2)dtc)(2)(DMSO) (Et(2)dtc = N,N-diethyldithiocarbamate; DMSO = dimethyl sulfoxide) with t-BuNC gave trans-Ru(Et(2)dtc)(2)(CN-t-Bu)(2), 1. Complex 1 crystallizes in the monoclinic space group P2(1)/n with 9.753(2) Angstrom, b = 11.583(2) Angstrom, c = 12.974(2) Angstrom, and beta = 91.8(2)degrees for Z = 2. The crystal structure of 1 shows the trans disposition of the two isocyanides; the mean Ru-S and Ru-C distances are 2.409 and 1.477(2) Angstrom, respectively. Treatment of [Ru(diene)Cl-2](n) with Na(Et(2)dtc) afforded Ru(Et(2)dtc)(2)(diene) (diene = bicyclo[2.2.1]-hepta-2,5-diene (NBD), 2, 1,5-cyclooctadiene (COD), 3). Complex 2 crystallizes in the triclinic space group P (1) over bar with a 7.316(1) Angstrom, b = 10.346(1) Angstrom, c = 15.123(2) Angstrom, alpha = 103.69(2)degrees, beta = 93.54(2)degrees, and gamma = 100.61(2)degrees for Z = 2. The mean Ru-S and Ru-C distances in 2 are 2.416 and 2.137 Angstrom, respectively. The reaction of cis-Ru(Et(2)dtc)(2)(CO)(2) with iodine gave the 2:1 molecular iodine complex cis-Ru(Et(2)dtc)(2)(CO)(2).1/2 I-2 4, which crystallizes in the monoclinic space group P2(1)/c with a = 7.347(2), b = 22.227(2) Angstrom, c = 12.891(2) Angstrom, and beta =95.98 (2)degrees for Z = 4. The mean Ru-S and Bu-C and the I-l distances in complex 4 are 2.427, 1.903, and 2.745(1) Angstrom, respectively. Treatment of Ru(Et(2)dtc)(2)(DMSO)(2) with I-2 gave the linear Ru(II)-Ru(III)-Ru(III) trimer [Ru-3(Et(2)dtc)(6)(DMSO)(2)](I-3)(2), 5, which crystallizes in the triclinic space group P (1) over bar with a = 14.125(3) Angstrom, b = 20.829(6) Angstrom, c = 13.658(3) Angstrom, alpha = 97.57(2)degrees, beta = 110.01(2)degrees, and gamma = 71.25(2)degrees for Z = 2. The structure of complex 6 can be viewed as consisting of a {Ru-2(III)(Et(2)dtC)(4)}(2+) Core and a (Ru-II(Et(2)dtc)2(DMSO)(2)\} moiety, which are linked together via the two dithiocarbamate sulfurs of the latter. While the two Ru(III) centers are connected by a Ru-R

Published

1997

6. Epoxide ring opening catalysed by imidochromium complexes

Author

Leung, Wa Hung, Wu, MC, Chim, JLC, Yu, MT, Hou, HW, Yeung, Lam Lung, Wong, WT, Wang, Y., Leung, Wa Hung, Wu, MC, Chim, JLC, Yu, MT, Hou, HW, Yeung, Lam Lung, Wong, WT, and Wang, Y.

Abstract

tert-Butylimidochromium complexes catalysed ring opening of epoxides by SiMe3(N-3) to give azidohydrins in good yields. The proposed mechanism for the chromium-mediated epoxide azidolysis involves the intermediacy of a chromium-azide species which delivers nucleophilic azide to the epoxide substrate. The azido complexes [{Cr(NBut)(2)Cl}(2)(mu-N-3)(2)] I and [Cr((BuN)-N-t=NN=NSiMe3)(N-3)Cl-2] 2 have been isolated in the reactions of SiMe3(N-3) with [Cr(NBut)(2)Cl-2] and [Cr(NBut)Cl-3(dme)] (dme = 1,2-dimethoxyethane), respectively. The structure of complex 1 has been established by X-ray crystallography. The mean Cr-N (imide) and Cr-N (azide) distances are 1.605 and 2.061 Angstrom, respectively Reaction of [Cr(NBut)Cl-3(thf)(2)] (thf = tetrahydrofuran) with (S,S)-diop {4,5-[bis(diphenylphosphino)methyl]-2,2-dimethyl-1,3-dioxolane} gave the dimeric complex [{Cr(NBut)Cl-3}(2){mu-(S,S)-diop}], which has been characterised by X-ray crystallography. The Cr-N and Cr-P distances are 1.593(9) and 2.449(4) Angstrom, respectively.

Published

1997

7. Arylimido complexes of ruthenium(IV) porphyrins

Author

Leung, Wa Hung, Hun, TSM, Hou, HW, Wong, KY, Leung, Wa Hung, Hun, TSM, Hou, HW, and Wong, KY

Abstract

Treatment of [Ru(tbpp)O-2] [H(2)tbpp = 5,10,15,20-tetrakis(p-tert-butylphenyl)porphyrin] with SiMe(3)Cl gave [Ru(tbpp)Cl-2] in good yield. Reaction of [Ru(tbpp)Cl-2] with para-substituted anilines NRH(2) (R = p-XC(6)H(4) where X = Me, H, Cl or I) afforded the first arylimidoruthenium(IV) complexes [Ru(tbpp)(NR)]. These are paramagnetic with mu(eff) ca. 2.8 mu(B) and display H-1 NMR spectra that are typical for paramagnetic ruthenium(IV) porphyrins. The cyclic voltammograms of [Ru(tbpp)(NR)] exhibit reversible Ru-V-Ru-IV and Ru-IV-R(III) couples. Treatment of [Ru(tbpp)(NR)] with Ag-I or Ce-IV afforded the imidoruthenium(V) complex [Ru(tbpp)(NR)](+). The complexes [Ru(tbpp)(NR)] underwent imido-group transfer reactions with tertiary phosphines to give [Ru(tbpp)(PR(3)')(2)] and RN=PR(3)'. The reduction of [Ru(tbpp)(NR)] by PMe(2)Ph shows saturation kinetics, in which the rate is first order in [Ru-IV]. The mechanism proposed for the Ru-mediated imido transfer involves reversible binding of phosphine to Ru-IV and rate-limiting intramolecular imido-group transfer. The first-order rate constant (k(1)) and phosphine binding constant (K) and for the reduction of [Ru(tbpp)(NC(6)H(4)Me-p)] by PMe(2)Ph at 25.0 degrees C in toluene solution were determined to be (6.86 +/- 0.19) x 10(-4) s(-1) and (23.6 +/- 6.5) x 10(3) mol dm(-3), respectively. The activation enthalpy (Delta H-double dagger) and entropy (Delta S-double dagger) for the above reaction are 125 +/- 1 kJ mol(-1) and 113 +/- 21 J K-1 mol(-1), respectively. For the reduction of para-X-substituted arylimido complexes [Ru(tbpp)(NC(6)H(4)X-p)] by tertiary PMe(2)Ph the rate decreases in the order X = I > H approximate to Cl > Me. The imido transfer from [Ru-V(tbpp)(NC(6)H(4)Me-p)](+) to PMe(2)Ph is about 60 times faster than that from [Ru-IV(tbpp)(NC(6)H(4)Me-p)].

Published

1997

8. Epoxide ring opening catalysed by imidochromium complexes

Author

Leung, Wa Hung, Wu, MC, Chim, JLC, Yu, MT, Hou, HW, Yeung, Lam Lung, Wong, WT, Wang, Y., Leung, Wa Hung, Wu, MC, Chim, JLC, Yu, MT, Hou, HW, Yeung, Lam Lung, Wong, WT, and Wang, Y.

Abstract

tert-Butylimidochromium complexes catalysed ring opening of epoxides by SiMe3(N-3) to give azidohydrins in good yields. The proposed mechanism for the chromium-mediated epoxide azidolysis involves the intermediacy of a chromium-azide species which delivers nucleophilic azide to the epoxide substrate. The azido complexes [{Cr(NBut)(2)Cl}(2)(mu-N-3)(2)] I and [Cr((BuN)-N-t=NN=NSiMe3)(N-3)Cl-2] 2 have been isolated in the reactions of SiMe3(N-3) with [Cr(NBut)(2)Cl-2] and [Cr(NBut)Cl-3(dme)] (dme = 1,2-dimethoxyethane), respectively. The structure of complex 1 has been established by X-ray crystallography. The mean Cr-N (imide) and Cr-N (azide) distances are 1.605 and 2.061 Angstrom, respectively Reaction of [Cr(NBut)Cl-3(thf)(2)] (thf = tetrahydrofuran) with (S,S)-diop {4,5-[bis(diphenylphosphino)methyl]-2,2-dimethyl-1,3-dioxolane} gave the dimeric complex [{Cr(NBut)Cl-3}(2){mu-(S,S)-diop}], which has been characterised by X-ray crystallography. The Cr-N and Cr-P distances are 1.593(9) and 2.449(4) Angstrom, respectively.

Published

1997

9. Arylimido complexes of ruthenium(IV) porphyrins

Author

Leung, Wa Hung, Hun, TSM, Hou, HW, Wong, KY, Leung, Wa Hung, Hun, TSM, Hou, HW, and Wong, KY

Abstract

Treatment of [Ru(tbpp)O-2] [H(2)tbpp = 5,10,15,20-tetrakis(p-tert-butylphenyl)porphyrin] with SiMe(3)Cl gave [Ru(tbpp)Cl-2] in good yield. Reaction of [Ru(tbpp)Cl-2] with para-substituted anilines NRH(2) (R = p-XC(6)H(4) where X = Me, H, Cl or I) afforded the first arylimidoruthenium(IV) complexes [Ru(tbpp)(NR)]. These are paramagnetic with mu(eff) ca. 2.8 mu(B) and display H-1 NMR spectra that are typical for paramagnetic ruthenium(IV) porphyrins. The cyclic voltammograms of [Ru(tbpp)(NR)] exhibit reversible Ru-V-Ru-IV and Ru-IV-R(III) couples. Treatment of [Ru(tbpp)(NR)] with Ag-I or Ce-IV afforded the imidoruthenium(V) complex [Ru(tbpp)(NR)](+). The complexes [Ru(tbpp)(NR)] underwent imido-group transfer reactions with tertiary phosphines to give [Ru(tbpp)(PR(3)')(2)] and RN=PR(3)'. The reduction of [Ru(tbpp)(NR)] by PMe(2)Ph shows saturation kinetics, in which the rate is first order in [Ru-IV]. The mechanism proposed for the Ru-mediated imido transfer involves reversible binding of phosphine to Ru-IV and rate-limiting intramolecular imido-group transfer. The first-order rate constant (k(1)) and phosphine binding constant (K) and for the reduction of [Ru(tbpp)(NC(6)H(4)Me-p)] by PMe(2)Ph at 25.0 degrees C in toluene solution were determined to be (6.86 +/- 0.19) x 10(-4) s(-1) and (23.6 +/- 6.5) x 10(3) mol dm(-3), respectively. The activation enthalpy (Delta H-double dagger) and entropy (Delta S-double dagger) for the above reaction are 125 +/- 1 kJ mol(-1) and 113 +/- 21 J K-1 mol(-1), respectively. For the reduction of para-X-substituted arylimido complexes [Ru(tbpp)(NC(6)H(4)X-p)] by tertiary PMe(2)Ph the rate decreases in the order X = I > H approximate to Cl > Me. The imido transfer from [Ru-V(tbpp)(NC(6)H(4)Me-p)](+) to PMe(2)Ph is about 60 times faster than that from [Ru-IV(tbpp)(NC(6)H(4)Me-p)].

Published

1997

10. Oxidation reactions of dithiocarbamate complexes of ruthenium(II)

Author

Leung, Wa Hung, Chim, JLC, Hou, HW, Hun, TSM, Williams, Ian Duncan, Wong, WT, Leung, Wa Hung, Chim, JLC, Hou, HW, Hun, TSM, Williams, Ian Duncan, and Wong, WT

Abstract

The reaction of Ru(Et(2)dtc)(2)(DMSO) (Et(2)dtc = N,N-diethyldithiocarbamate; DMSO = dimethyl sulfoxide) with t-BuNC gave trans-Ru(Et(2)dtc)(2)(CN-t-Bu)(2), 1. Complex 1 crystallizes in the monoclinic space group P2(1)/n with 9.753(2) Angstrom, b = 11.583(2) Angstrom, c = 12.974(2) Angstrom, and beta = 91.8(2)degrees for Z = 2. The crystal structure of 1 shows the trans disposition of the two isocyanides; the mean Ru-S and Ru-C distances are 2.409 and 1.477(2) Angstrom, respectively. Treatment of [Ru(diene)Cl-2](n) with Na(Et(2)dtc) afforded Ru(Et(2)dtc)(2)(diene) (diene = bicyclo[2.2.1]-hepta-2,5-diene (NBD), 2, 1,5-cyclooctadiene (COD), 3). Complex 2 crystallizes in the triclinic space group P (1) over bar with a 7.316(1) Angstrom, b = 10.346(1) Angstrom, c = 15.123(2) Angstrom, alpha = 103.69(2)degrees, beta = 93.54(2)degrees, and gamma = 100.61(2)degrees for Z = 2. The mean Ru-S and Ru-C distances in 2 are 2.416 and 2.137 Angstrom, respectively. The reaction of cis-Ru(Et(2)dtc)(2)(CO)(2) with iodine gave the 2:1 molecular iodine complex cis-Ru(Et(2)dtc)(2)(CO)(2).1/2 I-2 4, which crystallizes in the monoclinic space group P2(1)/c with a = 7.347(2), b = 22.227(2) Angstrom, c = 12.891(2) Angstrom, and beta =95.98 (2)degrees for Z = 4. The mean Ru-S and Bu-C and the I-l distances in complex 4 are 2.427, 1.903, and 2.745(1) Angstrom, respectively. Treatment of Ru(Et(2)dtc)(2)(DMSO)(2) with I-2 gave the linear Ru(II)-Ru(III)-Ru(III) trimer [Ru-3(Et(2)dtc)(6)(DMSO)(2)](I-3)(2), 5, which crystallizes in the triclinic space group P (1) over bar with a = 14.125(3) Angstrom, b = 20.829(6) Angstrom, c = 13.658(3) Angstrom, alpha = 97.57(2)degrees, beta = 110.01(2)degrees, and gamma = 71.25(2)degrees for Z = 2. The structure of complex 6 can be viewed as consisting of a {Ru-2(III)(Et(2)dtC)(4)}(2+) Core and a (Ru-II(Et(2)dtc)2(DMSO)(2)\} moiety, which are linked together via the two dithiocarbamate sulfurs of the latter. While the two Ru(III) centers are connected by a Ru-R

Published

1997