Radionuclide-Drug Conjugates (RDCs)

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Radionuclide-drug conjugates (RDCs) are one of the most promising development directions for nuclear drug targeted therapy. RDC is composed of targeting element, linker, chelate and radioactive isotope. RDC has advantages in early tumor diagnosis, treatment and postoperative tumor evaluation. The same ligand can be connected to nuclides used for disease diagnosis and treatment respectively, promoting the integration of diagnosis and treatment of RDC drugs. This entry provides molecular intermediates that can be used in the synthesis and research of RDC.

Radionuclide-Drug Conjugates (RDCs) Isoform Specific Products:

Radionuclide-Drug Conjugates (RDCs) Isoform Comparison

Radionuclide-Drug Conjugates (RDCs) Control (1)

Radionuclide-Drug Conjugates (RDCs) Related Products (117)
Radionuclide-Drug Conjugates (RDCs) Isoform Comparison

Cat. No.	Product Name	Effect	Purity	Chemical Structure

HY-134418A

NOTA trihydrochloride
NOTA (trihydrochloride)is a bifunctional chelator (Bifunctional Chelator; BFC) and a macrocyclic NOTA derivative used for tumor pre-targeting. NOTA (trihydrochloride) can be used for conjugation of peptides and radionuclides.

HY-P5053

Galacto-RGD
Galacto-RGD is an RGD analogue that can be coupled with the radioactive isotope 18F and used as an integrin α?β? selective tracer. Galacto-RGD can be used for the synthesis/research of Radionuclide-Drug Conjugates (RDCs).

HY-P10761

DPI-4452
DPI-4452 is a CAIX-targeting cyclic peptide with a DOTA cage, and can be chelated with radionuclide for CAIX-expressing tumor PET-CT imaging and study. DPI-4452 specifically and selectively binds CAIX without interaction with an in vitro off-target receptor panel of 55 targets (IC₅₀ for recombinant hCAIX: 130?nM). Radiolabeled DPI-4452 inhibits tumor growth in HT-29 and SK-RC-52 xenograft mouse models. DPI-4452 can be used for the synthesis/research of Radionuclide-Drug Conjugates (RDCs).

HY-W591317

(R)-NODAGA-tris(t-Bu ester)
(R)-NODAGA-tris(t-Bu ester) ((R)-NODAG) is a NODAGA derivative. (R)-NODAGA-tris(t-Bu ester) can be used to label peptides, antibodies, etc., and subsequently radiolabeled for PET imaging.

HY-W717800A

NO2A-Azide trihydrochloride
NO2A-Azide (trihydrochloride)is a bifunctional chelator (Bifunctional Chelator; BFC) and a macrocyclic NOTA derivative used for tumor pre-targeting. NO2A-Azide (trihydrochloride) can be used for conjugation of peptides and radionuclides.

HY-P10741

DOTA-EB-TATE
DOTA-EB-TATE is composed of SST peptide derivative, DOTA-octreotate conjugated a common to an Evans blue analog (EB). DOTA-EB-TATE is a peptide drug conjugate (PDC) improves the pharmacokinetics of SSTR2 analogs and reduces PRRT toxicity. DOTA-EB-TATE can also be used for the synthesis/research of Radionuclide-Drug Conjugates (RDCs).

HY-D2334

AlF-NOTA-c-d-VAP
AlF-NOTA-c-d-VAP is a peptide positron emission tomography (PET) probe that used for targeted tumor imaging of GRP78. AlF-NOTA-c-d-VAP demonstrates high stability in vitro and in vivo.

HY-164589

NOPO
NOPO is a radionuclide conjugate (RDC), which is capable of binding to a radionuclide. RDC has the ability to specifically target biomolecules and can be used in medical imaging or therapy.

HY-P10239

Tyr3-Octreotate
Tyr3-Octreotate is a somatostatin analog. Tyr3-Octreotate exhibits high uptake into tumor, that is capable to be labeled with radioactive metal and thus exhibits antitumor efficacy. Tyr3-Octreotate can be used for the synthesis/research of Radionuclide-Drug Conjugates (RDCs).

HY-156991

NODAGA-NHS
NODAGA-NHS (NODA-GA-NHS ester) is a [64]Cu chelator and the dissociated form of DOTA-trastuzumab in vivo. NODAGA-NHS was added in 0.1 M borate buffer at a ratio of 5/20/100 and was able to effectively bind trastuzumab (10 mg/mL) (4°C, 20 h). The copper content of the [64]Cu-NODAGA-trastuzumab was up to 80%. After blood was drawn from the caudal vein of mice, [64]Cu-NODAGA-trastuzumab was injected and showed good tumor uptake in mice expressing HER2 tumors, showing good PET imaging tracking ability.

HY-164604

3p-C-DEPA
3p-C-DEPA is a radionuclide conjugate (RDC), which is capable of binding to a radionuclide. RDC has the ability to specifically target biomolecules and can be used in medical imaging or therapy.

HY-W873634

TRAP
TRAP-Pr is a radionuclide conjugate (RDC) that can bind to the radionuclide [68]Ga. RDCs have the ability to specifically target biomolecules and can be used in medical imaging or therapy. TRAP-Pr can be further functionalized with acetone and used in click chemistry CuAAC reactions to conjugate other labeled molecules.

HY-164569

NH2 DOTA-GA
NH2 DOTA-GA is a DOTA-based metal chelator that can be used to prepare radionuclide drug conjugates (RDCs) whose carboxylic acid groups can complex metal ions. For example, NH2 DOTA-GA complexes Gd(III) ions.

HY-164596

THP(Bz3)-Glu
THP(Bz3)-Glu is a radionuclide conjugate (RDC), which is capable of binding to a radionuclide. RDC has the ability to specifically target biomolecules and can be used in medical imaging or therapy.

HY-164576

NCS-MP-NODA
NCS-MP-NODA (NODA-Bz-SCN) is a bifunctional chelator that can be used to bind to the labeled peptide DK222 with high specificity for PD-L1. The corresponding fluorinated radioactive is synthesized by the aluminum fluoride method, and NCS-MP-NODA targets DK222 to obtain the radioactive analog [18/19F]DK222. [18F]DK222 can quantify PD-L1 in vivo via PET tracking in xenograft models of multiple cancer types.

HY-164590

BCN-NODAGA
BCN-NODAGA is a radionuclide conjugate (RDC), which is capable of binding to a radionuclide. RDC has the ability to specifically target biomolecules and can be used in medical imaging or therapy.

HY-164599

TA-DOTA
TA-DOTA is a radionuclide conjugate (RDC), which is capable of binding to a radionuclide. RDC has the ability to specifically target biomolecules and can be used in medical imaging or therapy.

HY-164574

BCN-DOTA
BCN-DOTA is a cyclooctyne-linked DOTA chelator that can be radiolabeled with zirconium-89 as a radionuclide-labeled drug conjugate (RDC) to target specific biomolecules, cells, or tissues.

HY-W241345

DOTA-bis(tert-butyl)ester
DOTA-bis(tert-butyl)ester is a DOTA-based metal chelator that can bind to radionuclides and is used to prepare radionuclide conjugates (RDCs). DOTA-bis(tert-butyl)ester can be conjugated with different salts to form different metal chelators, such as (HY-B1244) hydrochloride to obtain DOTA-MN2. DOTA-MN2 can be reacted with [67]Ga-citrate to obtain radiolabeling. When (67)Ga-DOTA-MN2 is incubated in phosphate buffer solution or mouse plasma for 24 hours, it does not undergo significant decomposition. In the biodistribution experiment of NFSa tumor mice, it has high tumor uptake and rapid plasma clearance, and is a good material for SPECT and PET studies.

HY-164603

3p-C-NOTA
3p-C-NOTA is a radionuclide conjugate (RDC), which is capable of binding to a radionuclide. RDC has the ability to specifically target biomolecules and can be used in medical imaging or therapy.

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