Mark McLaughlin scite author profile

Targeted radiotherapies maximize cytotoxicty to cancer cells. In vivo α-generator targeted radiotherapies can deliver multiple α particles to a receptor site dramatically amplifying the radiation dose delivered to the target. The major challenge with α-generator radiotherapies is that traditional chelating moieties are unable to sequester the radioactive daughters in the bioconjugate which is critical to minimize toxicity to healthy, non-target tissue. The recoil energy of the 225Ac daughters following α decay will sever any metal-ligand bond used to form the bioconjugate. This work demonstrates that an engineered multilayered nanoparticle-antibody conjugate can deliver multiple α radiations and contain the decay daughters of 225Ac while targeting biologically relevant receptors in a female BALB/c mouse model. These multi-shell nanoparticles combine the radiation resistance of lanthanide phosphate to contain 225Ac and its radioactive decay daughters, the magnetic properties of gadolinium phosphate for easy separation, and established gold chemistry for attachment of targeting moieties.

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PSMA-Targeting Imaging and Theranostic Agents—Current Status and Future Perspective

Debnath

Zhou

McLaughlin

et al. 2022

IJMS

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In the past two decades, extensive efforts have been made to develop agents targeting prostate-specific membrane antigen (PSMA) for prostate cancer imaging and therapy. To date, represented by two recent approvals of [68Ga]Ga-PSMA-11 and [18F]F-DCFPyL by the United States Food and Drug Administration (US-FDA) for positron emission tomography (PET) imaging to identify suspected metastases or recurrence in patients with prostate cancer, PSMA-targeting imaging and theranostic agents derived from small molecule PSMA inhibitors have advanced to clinical practice and trials of prostate cancer. The focus of current development of new PSMA-targeting agents has thus shifted to the improvement of in vivo pharmacokinetics and higher specific binding affinity with the aims to further increase the detection sensitivity and specificity and minimize the toxicity to non-target tissues, particularly the kidneys. The main strategies involve systematic chemical modifications of the linkage between the targeting moiety and imaging/therapy payloads. In addition to a summary of the development history of PSMA-targeting agents, this review provides an overview of current advances and future promise of PSMA-targeted imaging and theranostics with focuses on the structural determinants of the chemical modification towards the next generation of PSMA-targeting agents.

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LnPO₄Nanoparticles Doped with Ac-225 and Sequestered Daughters for Targeted Alpha Therapy

McLaughlin

Robertson

Pevsner

et al. 2014

Cancer Biotherapy and Radiopharmaceuticals

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For targeted alpha therapy (TAT) with 225Ac, daughter radioisotopes from the parent emissions should be controlled. Here, we report on a second-generation layered nanoparticle (NP) with improved daughter retention that can mediate TAT of lung tumor colonies. NPs of La3+, Gd3+, and 225Ac3+ ions were coated with additional layers of GdPO4 and then coated with gold via citrate reduction of NaAuCl4. MAb 201b, targeting thrombomodulin in lung endothelium, was added to a polyethylene glycol (dPEG)-COOH linker. The NPs:mAb ratio was quantified by labeling the mAb with 125I. NPs showed 30% injected dose/organ antibody-mediated uptake in the lung, which increased to 47% in mice pretreated with clodronate liposomes to reduce phagocytosis. Retention of daughter 213Bi in lung tissue was more than 70% at one hour and about 90% at 24 hours postinjection. Treatment of mice with lung-targeted 225Ac NP reduced EMT-6 lung colonies relative to cold antibody competition for targeting or phosphate-buffered saline injected controls. We conclude that LnPO4 NPs represent a viable solution to deliver the 225Ac as an in vivo α generator. The NPs successfully retain a large percentage of the daughter products without compromising the tumoricidal properties of the α-radiation.

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5-year outcomes after stereotactic ablative body radiotherapy for primary renal cell carcinoma: an individual patient data meta-analysis from IROCK (the International Radiosurgery Consortium of the Kidney)

Ali¹,

Correa²,

Muacevic³

et al. 2022

The Lancet Oncology

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Metastasis-directed radiation therapy after radical cystectomy for bladder cancer

Miranda

Howard

McLaughlin

et al. 2021

Urologic Oncology: Seminars and Original Investigations

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Novel Indications for Commonly Used Medications as Radiation Protectants in Spaceflight

McLaughlin¹,

Donoviel²,

Jones³

2017

Aerospace Medicine and Human Performance

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Background In the space environment, the traditional radioprotective principles of time, distance, and shielding become difficult to implement. Additionally, the complex radiation environment inherent in space, the chronic exposure timeframe, and the presence of numerous confounding variables complicate the process of creating appropriate risk models for astronaut exposure. Pharmaceutical options hold tremendous promise to attenuate acute and late effects of radiation exposure in the astronaut population. Pharmaceuticals currently approved for other indications may also offer radiation protection, modulation, or mitigation properties along with a well-established safety profile. Currently there are only three agents which have been clinically approved to be employed for radiation exposure, and these only for very narrow indications. This review identifies a number of agents currently approved by the U.S. Food and Drug Administration (FDA) which could warrant further investigation for use in astronauts. Specifically, we examine preclinical and clinical evidence for statins, nonsteroidal anti-inflammatory drugs (NSAIDs), angiotensin converting enzyme inhibitors (ACEIs), angiotensin II receptor blockers (ARBs), metformin, calcium channel blockers, β adrenergic receptor blockers, fingolimod, N-acetylcysteine, and pentoxifylline as potential radiation countermeasures.

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Hydrogel Spacer Rectal Wall Infiltration Associated With Severe Rectal Injury and Related Complications After Dose Intensified Prostate Cancer Stereotactic Ablative Radiation Therapy

McLaughlin

Folkert

Timmerman

et al. 2021

Advances in Radiation Oncology

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The risk of rectal toxicity during and after prostate cancer radiation therapy is common to all treatment regimens. Hydrogel rectal spacers are increasingly being used to mitigate this risk and to facilitate dose-escalation, but also may infiltrate the rectal wall, with unclear clinical implication. We present a case of significant infiltration associated with severe late rectal injury (grade 4) and further grade 3 to 4 sequelae (recto-urethral fistula and associated osteomyelitis requiring exenteration) after high-dose stereotactic body radiation therapy for localized prostate cancer. The injury's temporal pattern associated with the expected timing of gel dissolution and displacement of infiltrated rectal layers potentially toward high dose regions together suggest a contributing role of the infiltration to the injury. In light of the rapid increase of hydrogel rectal spacer utilization, we review the case's evolution, concerning imaging findings, and associated literature and make suggestions regarding treatment planning and endoscopic assessment in the setting of infiltration or expected injury.

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Gold-coated lanthanide phosphate nanoparticles for an ²²⁵Ac in vivo alpha generator

et al. 2013

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Summary Retaining radioactive daughter products at a clinically relevant target site remains one of the major challenges in development of in vivo α generators with radionuclides such as 225Ac and 223Ra. In this work, we examine the ability of layered nanoparticle constructs to retain 225Ac and the first decay daughter, 221Fr. Actinium-225 is cocrystalized in a lanthanide phosphate nanoparticle consisting of varying amounts of La and Gd. Additional lanthanide phosphate layers improve retention capability while an outer layer of gold facilitates the attachment of targeting moieties for in vivo use. Retention of 225Ac in the nanoparticles is near quantitative while the 221Fr retention varies from 60-89% as a function of time, the number of layers, and nanoparticle composition. Decay corrected radiochemical yield in the multi-shell syntheses are high (76%) and comparable to or better than existing delivery approaches.

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Mark McLaughlin

Gold Coated Lanthanide Phosphate Nanoparticles for Targeted Alpha Generator Radiotherapy

PSMA-Targeting Imaging and Theranostic Agents—Current Status and Future Perspective

LnPO₄Nanoparticles Doped with Ac-225 and Sequestered Daughters for Targeted Alpha Therapy

5-year outcomes after stereotactic ablative body radiotherapy for primary renal cell carcinoma: an individual patient data meta-analysis from IROCK (the International Radiosurgery Consortium of the Kidney)

Metastasis-directed radiation therapy after radical cystectomy for bladder cancer

Novel Indications for Commonly Used Medications as Radiation Protectants in Spaceflight

Hydrogel Spacer Rectal Wall Infiltration Associated With Severe Rectal Injury and Related Complications After Dose Intensified Prostate Cancer Stereotactic Ablative Radiation Therapy

Gold-coated lanthanide phosphate nanoparticles for an ²²⁵Ac in vivo alpha generator

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Mark McLaughlin

Gold Coated Lanthanide Phosphate Nanoparticles for Targeted Alpha Generator Radiotherapy

PSMA-Targeting Imaging and Theranostic Agents—Current Status and Future Perspective

LnPO4Nanoparticles Doped with Ac-225 and Sequestered Daughters for Targeted Alpha Therapy

5-year outcomes after stereotactic ablative body radiotherapy for primary renal cell carcinoma: an individual patient data meta-analysis from IROCK (the International Radiosurgery Consortium of the Kidney)

Metastasis-directed radiation therapy after radical cystectomy for bladder cancer

Novel Indications for Commonly Used Medications as Radiation Protectants in Spaceflight

Hydrogel Spacer Rectal Wall Infiltration Associated With Severe Rectal Injury and Related Complications After Dose Intensified Prostate Cancer Stereotactic Ablative Radiation Therapy

Gold-coated lanthanide phosphate nanoparticles for an 225Ac in vivo alpha generator

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LnPO₄Nanoparticles Doped with Ac-225 and Sequestered Daughters for Targeted Alpha Therapy

Gold-coated lanthanide phosphate nanoparticles for an ²²⁵Ac in vivo alpha generator