Bleomycin administered by laser-assisted drug delivery or intradermal needle-injection results in distinct biodistribution patterns in skin: in vivo investigations with mass spectrometry imaging

Research output: Contribution to journalJournal articleResearchpeer-review

Standard

Bleomycin administered by laser-assisted drug delivery or intradermal needle-injection results in distinct biodistribution patterns in skin : in vivo investigations with mass spectrometry imaging. / Hendel, Kristoffer; Hansen, Anders C. N.; Bik, Liora; Bagger, Charlotte; van Doorn, Martijn B. A.; Janfelt, Christian; Olesen, Uffe H.; Haedersdal, Merete; Lerche, Catharina M.

In: Drug Delivery, Vol. 28, No. 1, 01.01.2021, p. 1141-1149.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Hendel, K, Hansen, ACN, Bik, L, Bagger, C, van Doorn, MBA, Janfelt, C, Olesen, UH, Haedersdal, M & Lerche, CM 2021, 'Bleomycin administered by laser-assisted drug delivery or intradermal needle-injection results in distinct biodistribution patterns in skin: in vivo investigations with mass spectrometry imaging', Drug Delivery, vol. 28, no. 1, pp. 1141-1149. https://doi.org/10.1080/10717544.2021.1933649

APA

Hendel, K., Hansen, A. C. N., Bik, L., Bagger, C., van Doorn, M. B. A., Janfelt, C., Olesen, U. H., Haedersdal, M., & Lerche, C. M. (2021). Bleomycin administered by laser-assisted drug delivery or intradermal needle-injection results in distinct biodistribution patterns in skin: in vivo investigations with mass spectrometry imaging. Drug Delivery, 28(1), 1141-1149. https://doi.org/10.1080/10717544.2021.1933649

Vancouver

Hendel K, Hansen ACN, Bik L, Bagger C, van Doorn MBA, Janfelt C et al. Bleomycin administered by laser-assisted drug delivery or intradermal needle-injection results in distinct biodistribution patterns in skin: in vivo investigations with mass spectrometry imaging. Drug Delivery. 2021 Jan 1;28(1):1141-1149. https://doi.org/10.1080/10717544.2021.1933649

Author

Hendel, Kristoffer ; Hansen, Anders C. N. ; Bik, Liora ; Bagger, Charlotte ; van Doorn, Martijn B. A. ; Janfelt, Christian ; Olesen, Uffe H. ; Haedersdal, Merete ; Lerche, Catharina M. / Bleomycin administered by laser-assisted drug delivery or intradermal needle-injection results in distinct biodistribution patterns in skin : in vivo investigations with mass spectrometry imaging. In: Drug Delivery. 2021 ; Vol. 28, No. 1. pp. 1141-1149.

Bibtex

@article{8d46a7d80ee14e85b2f99f1e689f344f,
title = "Bleomycin administered by laser-assisted drug delivery or intradermal needle-injection results in distinct biodistribution patterns in skin: in vivo investigations with mass spectrometry imaging",
abstract = "Bleomycin (BLM) is being repositioned in dermato-oncology for intralesional and intra-tumoural use. Although conventionally administered by local needle injections (NIs), ablative fractional lasers (AFLs) can facilitate topical BLM delivery. Adding local electroporation (EP) can augment intracellular uptake in the target tissue. Here, we characterize and compare BLM biodistribution patterns, cutaneous pharmacokinetic profiles, and tolerability in an in vivo pig model following fractional laser-assisted topical drug delivery and intradermal NI, with and without subsequent EP. In vivo pig skin was treated with AFL and topical BLM or NI with BLM, alone or with additional EP, and followed for 1, 2 and 4 h and eventually up to 9 d. BLM biodistribution was assessed by spatiotemporal mass spectrometry imaging. Cutaneous pharmacokinetics were assessed by mass spectrometry quantification and temporal imaging. Tolerability was evaluated by local skin reactions (LSRs) and skin integrity measurements. AFL and NI resulted in distinct BLM biodistributions: AFL resulted in a horizontal belt-shaped BLM distribution along the skin surface, and NI resulted in BLM radiating from the injection site. Cutaneous pharmacokinetic analyses and temporal imaging showed a substantial reduction in BLM concentration within the first few hours following administration. LSRs were tolerable overall, and all interventions permitted almost complete recovery of skin integrity within 9 d. In conclusion, AFL and NI result in distinct cutaneous biodistribution patterns and pharmacokinetic profiles for BLM applied to in vivo skin. Evaluation of LSRs showed that both methods were similarly tolerable, and each method has potential for individualized approaches in a clinical setting.",
keywords = "Skin, bleomycin, ablative fractional laser, laser-assisted drug delivery, drug delivery, topical delivery, intradermal, electroporation, imaging, MALDI, LC-MS, mass spectrometry, FRACTIONAL LASER, ELECTROCHEMOTHERAPY, CANCER",
author = "Kristoffer Hendel and Hansen, {Anders C. N.} and Liora Bik and Charlotte Bagger and {van Doorn}, {Martijn B. A.} and Christian Janfelt and Olesen, {Uffe H.} and Merete Haedersdal and Lerche, {Catharina M.}",
year = "2021",
month = jan,
day = "1",
doi = "10.1080/10717544.2021.1933649",
language = "English",
volume = "28",
pages = "1141--1149",
journal = "Drug Delivery",
issn = "1071-7544",
publisher = "Taylor & Francis",
number = "1",

}

RIS

TY - JOUR

T1 - Bleomycin administered by laser-assisted drug delivery or intradermal needle-injection results in distinct biodistribution patterns in skin

T2 - in vivo investigations with mass spectrometry imaging

AU - Hendel, Kristoffer

AU - Hansen, Anders C. N.

AU - Bik, Liora

AU - Bagger, Charlotte

AU - van Doorn, Martijn B. A.

AU - Janfelt, Christian

AU - Olesen, Uffe H.

AU - Haedersdal, Merete

AU - Lerche, Catharina M.

PY - 2021/1/1

Y1 - 2021/1/1

N2 - Bleomycin (BLM) is being repositioned in dermato-oncology for intralesional and intra-tumoural use. Although conventionally administered by local needle injections (NIs), ablative fractional lasers (AFLs) can facilitate topical BLM delivery. Adding local electroporation (EP) can augment intracellular uptake in the target tissue. Here, we characterize and compare BLM biodistribution patterns, cutaneous pharmacokinetic profiles, and tolerability in an in vivo pig model following fractional laser-assisted topical drug delivery and intradermal NI, with and without subsequent EP. In vivo pig skin was treated with AFL and topical BLM or NI with BLM, alone or with additional EP, and followed for 1, 2 and 4 h and eventually up to 9 d. BLM biodistribution was assessed by spatiotemporal mass spectrometry imaging. Cutaneous pharmacokinetics were assessed by mass spectrometry quantification and temporal imaging. Tolerability was evaluated by local skin reactions (LSRs) and skin integrity measurements. AFL and NI resulted in distinct BLM biodistributions: AFL resulted in a horizontal belt-shaped BLM distribution along the skin surface, and NI resulted in BLM radiating from the injection site. Cutaneous pharmacokinetic analyses and temporal imaging showed a substantial reduction in BLM concentration within the first few hours following administration. LSRs were tolerable overall, and all interventions permitted almost complete recovery of skin integrity within 9 d. In conclusion, AFL and NI result in distinct cutaneous biodistribution patterns and pharmacokinetic profiles for BLM applied to in vivo skin. Evaluation of LSRs showed that both methods were similarly tolerable, and each method has potential for individualized approaches in a clinical setting.

AB - Bleomycin (BLM) is being repositioned in dermato-oncology for intralesional and intra-tumoural use. Although conventionally administered by local needle injections (NIs), ablative fractional lasers (AFLs) can facilitate topical BLM delivery. Adding local electroporation (EP) can augment intracellular uptake in the target tissue. Here, we characterize and compare BLM biodistribution patterns, cutaneous pharmacokinetic profiles, and tolerability in an in vivo pig model following fractional laser-assisted topical drug delivery and intradermal NI, with and without subsequent EP. In vivo pig skin was treated with AFL and topical BLM or NI with BLM, alone or with additional EP, and followed for 1, 2 and 4 h and eventually up to 9 d. BLM biodistribution was assessed by spatiotemporal mass spectrometry imaging. Cutaneous pharmacokinetics were assessed by mass spectrometry quantification and temporal imaging. Tolerability was evaluated by local skin reactions (LSRs) and skin integrity measurements. AFL and NI resulted in distinct BLM biodistributions: AFL resulted in a horizontal belt-shaped BLM distribution along the skin surface, and NI resulted in BLM radiating from the injection site. Cutaneous pharmacokinetic analyses and temporal imaging showed a substantial reduction in BLM concentration within the first few hours following administration. LSRs were tolerable overall, and all interventions permitted almost complete recovery of skin integrity within 9 d. In conclusion, AFL and NI result in distinct cutaneous biodistribution patterns and pharmacokinetic profiles for BLM applied to in vivo skin. Evaluation of LSRs showed that both methods were similarly tolerable, and each method has potential for individualized approaches in a clinical setting.

KW - Skin

KW - bleomycin

KW - ablative fractional laser

KW - laser-assisted drug delivery

KW - drug delivery

KW - topical delivery

KW - intradermal

KW - electroporation

KW - imaging

KW - MALDI

KW - LC-MS

KW - mass spectrometry

KW - FRACTIONAL LASER

KW - ELECTROCHEMOTHERAPY

KW - CANCER

U2 - 10.1080/10717544.2021.1933649

DO - 10.1080/10717544.2021.1933649

M3 - Journal article

C2 - 34121567

VL - 28

SP - 1141

EP - 1149

JO - Drug Delivery

JF - Drug Delivery

SN - 1071-7544

IS - 1

ER -

ID: 272428641